silabus fisika indo 2009 2014 indo+inggris-
TRANSCRIPT
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FAKULTAS MATEMATIKA DAN ILMU PENGETAHUAN ALAM Program Studi Department
FISIKA PHYSICS
Jenjang Pendidikan Programme
PROGRAM SARJANA GRADUATE PROGRAM
Kompetensi Lulusan
Kemampuan memahami dan memecahkan masalah Kemampuan mengikuti perkembangan science & teknologi
material, elektronika dan optoelektronika Kemampuan beradaptasi terhadap perkembangan ilmu fisika Kemampuan menerapkan konsep fisika untuk berbagai aplikasi
Graduate Competence
Ability to understand and solve problems Ability to follow the development of science and materials
technology, electronics and optoelectronics Ability to adapt to the development of physics Ability to apply concepts of physics to various applications
No. Kode MK Code
Nama Mata Kuliah (MK) Course Title
Sks Credits
SEMESTER I 1 SF 091303 Fisika Dasar I
Fundamental Physics I 4
2 SM 091303 Kalkulus I Calculus I
4
3 SB 091201 Biologi Umum General Biology
2
4 IG 09130y Agama Religion Education
2
5 SK 091201 Kimia Dasar I Fundamental Chemistry I
4
6 IG 091310 Pengantar Teknologi Informasi dan Komunikasi Introduction of Information and Communication Technology
2
Jumlah sks/Total of credits 18
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SEMESTER II 1 SF 091304 Fisika Dasar II
Fundamental Physics II 4
2 SF 091305 Fisika Dasar III Fundamental Physics III
2
3 SF 091306 Metode Pengukuran Fisika Physical Measurement Method
3
4 SM 091304 Kalkulus II Calculus II
4
5 SK 091202 Kimia Dasar II Fundamental Chemistry II
3
6 IG 091308 Bahasa Inggris English
2
Jumlah sks/Total of credits 18 SEMESTER III
1 SF 091307 Elektronika Dasar I Fundamental Electronics I
3
2 SF 091309 Fisika Matematika I Mathematical Physics I
4
3 SF 091311 Termodinamika Thermodynamics
3
4 SF 091312 Fisika Modern Modern Physics
4
5 SF 091313 Mekanika Mechanics
4
6 IG 091306 Kewarganegaraan Civics
2
Jumlah sks/Total of credits 20
SEMESTER IV 1 SF 091205 Metode Numerik
Numerical Method 2
2 SF 091308 Elektronika Dasar II Fundamental Electronics II
3
3 SF 091310 Fisika Matematika II Mathematical Physics II
4
4 SF 091314 Gelombang Wave
4
5 Pilihan Minat/Bidang Elective Courses
6
Jumlah sks/Total of credits 19
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SEMESTER V 1 SF 091315 Medan Elektromagnet
Electromagnetic Field 4
2 SF 091316 Fisika Laboratorium Laboratory Physics
2
3 SF 091317 Fisika Kuantum Quantum Physics
4
4 Pilihan Minat/Bidang Elective Courses
9
Jumlah sks/Total of credits 19
SEMESTER VI
1 SF 091206 Fisika Komputasi Computational Physics
4
2 SF 091318 Fisika Statistik Statistical Physics
3
3 IG 091306 Bahasa Indonesia Indonesian
2
4 Pilihan Minat/Bidang Elective Courses
9
Jumlah sks/Total of credits 18
SEMESTER VII 1 SF 091207 Seminar
Seminar 2
2 SF 091319 Fisika Zat Padat Solid State Physics
4
3 SF 091320 Fisika Inti Nuclear Physics
4
4 IG 091311 Pengantar Technopreneur Introduction to Technopreneurship
2
5 Pilihan Minat/Bidang Elective Courses
6
Jumlah sks/Total of credits 18
SEMESTER VIII
1 SF 091321 Tugas Akhir Final Project
6
2 Pilihan Minat/Bidang Elective Courses
8
Jumlah sks/Total of credits 14
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PILIHAN MINAT / BIDANG ELECTIVE COURSES
1 SF 091209 Fisika Keramik Physics of Ceramics
3
2 SF 091211 Fisika Logam Physics of Metals
3
3 SF 091213 Korosi Corrossion
3
4 SF 091215 Difraksi Kristal Crystal Diffraction
3
5 SF 091217 Fisika Semikonduktor Physics of Semiconductors
3
6 SF 091219 Elektronika Electronics
3
7 SF 091221 Perpindahan Panas Heat Transfer
3
8 SF 091223 Analisis Sistem Fisis Analysis of Physics System
3
9 SF 091225 Pengolahan Sinyal Signal Processing
2
10 SF 091227 Pengolahan Citra Image Processing
3
11 SF 091231 Instrumentasi Optik Instrumentation Optics
3
12 SF 091233 Komputasi Optik Optics Computation
4
13 SF 091235 Fisika Matematika Lanjut Advanced Mathematical Physics
3
14 SF 091237 Teori Relativitas Khusus Special Theory of Relativity
2
15 SF 091239 Teori Group Group Theory
3
16 SF 091241 Geodinamika Geodynamics
3
17 SF 091256 Fisika Batuan Rock Physics
3
18 SF 091245 Analisa Well-Log Well-Log Analysis
3
19 SF 091247 Eksplorasi Geothermal Geothermal Exploration
3
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PILIHAN MINAT / BIDANG ELECTIVE COURSES
1 SF 091208 Pengantar Fisika Bahan Introduction to Material Physics
3
2 SF 091210 Fisika Polimer Physics of Polymers
3
3 SF 091212 Fisika Bahan Komposit Physics of Composite Materials
3
4 SF 091214 Fisika Bahan Lanjut Physics of Advanced Materials
3
5 SF 091216 Spektro-mikrografi Spectroscopy and Micrography
3
6 SF 091218 Elektro Akustik Acoustics Electronics
3
7 SF 091220 Elektro Digital Digital Electronics
3
8 SF 091222 Mekanika Fluida Fluid Mechanics
2
9 SF 091224 Fisika Instrumentasi Instrumentation Physics
3
10 SF 091226 Fisika Bangunan Building Physics
3
11 SF 091228 Intellegent Instrumen Intelligent Instrument
3
12 SF 091230 Optika Modern Modern Optics
3
13 SF 091232 Optika Serat Fiber Optics
3
14 SF 091234 Elektromagnetika Electromagnetics
2
15 SF 091236 Fotonika Photonics
3
16 SF 091238 Pengantar Fisika Partikel Introduction to Particel Physics
3
17 SF 091240 Pengantar Kosmologi Introduction to Cosmology
3
18 SF 091242 Kapita Selekta Selective Topics
2
19 SF 091244 Elektromagnetika Terapan Applied Electromgnetics
2
20 SF 091246 Seismologi Seismology
3
21 SF 091248 Eksplorasi Kelistrikan Bumi Elective Methods and Application
3
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22 SF 091250 Vulkanologi Vulcanology
3
23 SF 091252 Eksplorasi Seismik Seismic Exploration
4
24 SF 091254 Eksplorasi Medan Potensial Bumi Potentials Filed Exploration
3
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SILABUS KURIKULUM /COURSE SYLLABUS
MATA KULIAH/ COURSE TITLE
SF 091303: Fisika Dasar I SF 091303: Fundamental Physics I Credits: 3/0/1 Semester: I
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan dan menggunakan rumusan hukum-hukum dasar fisika tentang mekanika, mekanika fluida dan kalor.
Students are able to explain and use formulas of fundamental laws of physics about the mechanics, fluid mechanics and heat.
KOMPETENSI/ COMPETENCY
Kemampuan memecahkan masalah Mengikuti perkembangan sains dan teknologi Dapat menerapkan dasar-dasar fisika pada bidang lain
Ability to solve problems. Following the development of science and technology Ability to apply fundamentals of physics in other fields
POKOK BAHASAN/ SUBJECTS
Besaran dan vektor; Kinematika partikel: kecepatan, percepatan, gerak lurus, gerak parabola, gerak melingkar; Dinamika partikel: hukum Newton, gaya gesek;
Kerja dan energi: konsep kerja, energi kinetik, energi potensial, kekekalan energi mekanik, momentum dan tumbukan;
Gerak rotasi: kecepatan dan percepatan sudut, momen gaya dan momen inersia, gerak menggelinding;
Getaran: gerak harmonis sederhana, gabungan getaran selaras; Mekanika fluida: hidrostatika, hidrodinamika. Materi praktikum berupa modul praktikum tentang:
Gerak peluru, Gerak lurus percepatan konstan (Flecther Trolley), Gaya sentrifugal, Koefisien gesek, Momen inersia, Tetapan Pegas, Percepatan gravitasi bumi (bandul matematis, bandul fisis).
Quantities and vectors, kinematics of particles:velocity, accelerati-on, straight motion, parabolic motion, circular motion, dynamics of particcles: Newton's laws, friction;
Work and energy: the concept of work, kinetic energy, potential energy, conservation ofmechanical energy, momentum and collisions;
Rotational motion: angular velocity and angular acceleration, moment of force and moment of inertia, rolling motion;
Vibration: simple harmonic motion, the combined vibration in tune;
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Fluid mechanics: hydrostatics, hydrodynamics. Materials laboratory experiment module of the form:
Motion bullets, straight motion to constant acceleration (Flecther Trolley), centrifugal force, friction coefficient, moment of inertia, spring constant, the gravitational acceleration of the Earth (mathe-matical pendulum, physical pendulum).
PUSTAKA UTAMA/ REFERENCES
1. Halliday & Resnic; 'Fundamental of Physics'. John Wiley and Sons, New York, 1987
2. Alonso & Finn,"Fundamental University Physics", Addison Wesley Pub Comp Inc,13`.ed, Calf, 1990
3. Tipler, PA,(ted. L Prasetio dan R.W.Adi), "Fisika : untuk Sains dan Teknik, Jilid 1", Erlangga, Jakarta, 1998
4. Giancoli, DC., (terj, Yuhilza H), 'Fisika, jilid 1', Ertangga, Jakarta, 2001 5. Tim Dosen, "Diktat Fisika I", ”Soal-soal Fisika I", Fisika FMIPA-ITS 6. -, "Petunjuk Praktikum Fisika Dasar", Fisika, MIPA-ITS
MATA KULIAH/ COURSE TITLE
SM 091303: Kalkulus I SM 091303: Calculus I Credits: 3/0/1 Semester: I
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Memahami konsep-konsep dasar fungsi satu variable, limit fungsi, diferensial dan turunan fungsi beserta aplikasinya, integral tak tentu serta teknik pengintegralan.
Understanding the basic concepts of one variable functions, limit functions, differential and derivative of the function and its application, not necessarily integral and integration tehniques
KOMPETENSI/ COMPETENCY
Kemampuan memecahkan masalah; Mengikuti perkembangan sains dan teknologi; Dapat menerapkan dasar-dasar Matematika pada bidang lain;
Ability to solve problems. Following the development of science and technology Able to apply fundamentals of mathematics in other fields;
POKOK BAHASAN/
Sistem bilangan dan topik-topik geometri analitik datar; Fungsi, limit, dan kekontinuan; Diferensiasi; Aplikasi Diferensiasi; Integral, Teorema fundamental Kalkulus I dan II
Numbering system and analytic geometry topics of flat;
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SUBJECTS Functions, limits, and continuity; Differentiation; Applications of Differentiation; The integral, fundamental theorem of Calculus I and II
PUSTAKA UTAMA/ REFERENCES
1. Dosen-dosen Jurusan Matematika ITS, “Buku Ajar Kalkulus I”, Jurusan Matematika FMIPA ITS, 2003.
2. Anton, H., “Calculus, with Analitic Geometry”, 6th edition, John Wiley & Sons, Inc., Singapore, 1999.
3. Purcell, J.E., Rigdon, S.E., Varberg, D., “Calculus”, 8th edition, Prentice Hall, New Jersey, 2000.
MATA KULIAH/ COURSE TITLE
SB 091201: Biologi Umum SB 091201: General Biology Credits: 2 Semester: I
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Memahami dan menjelaskan konsep dasar kehidupan secara menyeluruh ciri morfologi, anatomi dan adaptasi secara integratif didalam proses kehidupan sebagai dasar untuk mempelajari ilmu biologi yang lebih tinggi
Understand and explain basic concepts of life as a whole charac-teristic morphology, anatomy and adaptation are integrated within the life process as a basics for studying the higher biology sciences
KOMPETENSI/ COMPETENCY
Mahasiswa mengerti dan memahami konsep hidup dari tingkat sel sampai individu yang meliputi morfologi dan anatomi, fisiologi, reproduksi, adaptasi dan evolusi
Mahasiswa mampu menjelaskan konsep hidup dari tingkat sel sampai individu yang meliputi morfologi dan anatomi, fisiologi, reproduksi, adaptasi dan evolusi
Mahasiswa dapat menjelaskan dan mempraktekkan konsep hidup dari tingkat sel sampai individu yang meliputi morfologi dan anatomi, fisiologi, reproduksi, adaptasi dan evolusi
Students know and understand the concept of iving up to the individual cell level, including morphology and anatomy, physio-logy, reproduction, adaptation and evolution
Students are able to explain the concept of living up to the individual cell level, including morphology and anatomy, physio-logy, reproduction, adaptation and evolution
Students can explain and practice the concept of living up to the individual cell level, including, morphology and anatomy, physio-logy, reproduction, adaptation and evolution
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POKOK BAHASAN/ SUBJECTS
Pendahuluan : karakteristik makhluk hidup dan molekul kehidupan; Asal usul makhluk hidup:
struktur sel, jaringan dan organ, metabolisme; Keanekaragaman makhluk hidup: taksonomi, Bacteria, Archaea,
Eukarya; Genetika : mitosis dan meiosis, kromosom dan DNA, genetika
Mendel; Evolusi : pandangan Darwinian, evolusi populasi, asal mula species,
melacak filogeni; Bentuk dan fungsi tumbuhan : struktur dan fungsi, organ reproduksi,
system control; Bentuk dan fungsi hewan : struktur dan fungsi, organ reproduksi, homeostatis;
Ekologi : ekosistem dan biokonservasi; Pengantar bioteknologi
Introduction: the characteristics of living things and the molecules of life: The origin of living things;
The structure of cells, tissues and organs, metabolism; Diversity of living things: taxonomy, Bacteria, Archaea, Eukarya; Genetics: mitosis and meiosis, chromosomes and DNA, Mendelian
genetics; Evolution: Darwinian view, the evolution of populations, the origin
of species, trace phylogeny; Form and function of plant: structure and function, reproductive
organ, system control, shape and function of animals: structure and function, reproductive organs, homeostasis;
Ecology: The ecosystem and biokonservasi; Introduction to biotechnology
PUSTAKA UTAMA/ REFERENCES
1. Campbell, N.A.; Reece J.B. and Mitchell L.G., 2000. Biology. 5th ed., Addison Wisley Longman, Inc, California
2. Alters, S, 1996, Biology Understanding Life, Mosby Year Book, Inc, St Louis, Missouri, USA.
MATA KULIAH/ COURSE TITLE
IG 091301: PENDIDIKAN AGAMA ISLAM IG 091301: ISLAM EDUCATION Credits: 2 Semester: 1/2/3/4/5/6/7/8
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa akan memahami, meyakini, engamal- kan ajaran Islam dan mengaktualisasikan dalam kehidupan.
Students are able to understand, believe, execute Islamic direction and put it their lives
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KOMPETENSI/ COMPETENCY
memiliki iman, taqwa, akhlak yang mulia
memiliki penalaran yang baik, berpikir kritis, dan berwawasan luas
menjadikan nilai-nilai Islam untuk mengenali berbagai masalah aktual dan mampu me-mecahkannya, mampu berkomunikasi dengan baik, bersikap mandiri dan toleran dalam mengembangkan kehidupan yang harmonis antar umat manusia.
Having belief, taqwa, and good behavior.
Having delicate logics, critical thinking, and broad horizon Applying Islamic values to identify various actual problems and
solve them, having good communication skill, independent, tolerant, and encouraging to have harmonic life among humans
POKOK BAHASAN/ SUBJECTS
Konsep ketuhanan dalam Islam
Hakekat manusia menurut Islam Hukum, ham, demokrasi dalam Islam
Etika, moral dan akhlak Iptek dan seni dalam Islam
Theology of Islam
Human existence in Islam
Law, Human rights, democracy in Islam Ethics, Morale, and Behavior
Science and technology and art in Islam
PUSTAKA UTAMA/ REFERENCES
1. Departemen Agama RI, Terjemah Al Qur-an, (Al Qur-an Translation) 2. TIM PAI ITS, Kuliah Al Islam, (Al Islam Course) 3. Departemen Agama RI Panduan Pendidikan Agama Islam di PTU,
(Guidance of Islam Education in General Higher Education) 4. Muslim Nurdin Moral dan kognis (Islam, Islam Morale and
Cognition) 5. Yusuf Qardawi, Karakteristik Islam, (Islam Characteristics)
MATA KULIAH/ COURSE TITLE
IG. 091302: Agama Kristen IG.091302: Christian Credits: 2 Semester: 1 or 2
TUJUAN PEMBELAJARAN /LEARNING
Mahasiswa mampu menghayati cinta kasih Tuhan Allah sehingga dapat tumbuh sebagai pribadi yang utuh dan dapat membuktikan dirinya sebagai manusia yang dewasa, bertanggung jawab kepada Tuhan Allah, sesama manusia, lingkungan hidup dan
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OBJECTIVES bersedia mengabdikan hidup dan pekerjaannya demi kepentingan bangsa dan sesama manusia.
Students are able to sense the love of God so that they become personaly matured and complete as they have to take charge to their God, their surroundings, as well as their environment; they also have to be aware that they have to have a willingness to use their livea and their occupations for the sake of the nations and others.
KOMPETENSI/ COMPETENCY
Hakekat manusia sebagai makhluk religius
Keberadaan Tuhan serta peranan penting agama dalam kehiudpan manusia dan masyarakat.
Hubungan timbal balik antara iman dan IPTEKNI The Essence of human beings as the religious creatures
The existence of God and its important roles in the life of people and society
Interrelationship between faith and Science and Technology.
POKOK BAHASAN/ SUBJECTS
Manusia : Sebagai makhluk religius yang bermartabat, sebagai makhluk religius yang menjalani kehidupannya secara utuh dalam semua dimensi kehidupan
Tuhan : Konsep Tuhan Yang Maha Esa menurut Iman Kristen, Cinta Kasih Tuhan dalam kehidupan manusia, Agama Kristen dan peranannya dalam kehidupan manusia.
Etika dan Moral : Hubungan antara etika, moral dan Iman Kristen. Sikap etis terhadap nilai-nilai kehidupan
Ilmu Pengetahuan, Teknologi dan Seni (IPTEKNI): Hubungan timbal balik antara iman dan IPTEKNI, Landasan Iman Kristen untuk pengembangan IPTEKNI, Pengembangan IPTEKNI demi kesejahteraan umat manusia serta kelestarian alam
Masyarakat :Tanggung jawab umat Kristen dalam masyarakat, Partisipasi umat Kristen dalam mewujudkan HAM, Partisipasi umat Kristen dalam mewujudkan civil society.
Human: As a religious creature who has high dignity, and as a religious creature who can carry out this life in in a complete and overal dimensions of life.
God : Concept of the Only God based on the Christianity, the love of God in the human life, Christianity and its roles in life.
Ettiquatte and Moral Values : Relationdship between ettiquatte, moral value, Christianity. Ethical attitude towards the values of life
Science and Technology: Interrelationship between science and
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faith (i.e. Christianity), Christianity base to develop science and technology, development of science and technology for human and conservation of the nature.
Society: the responsibity of Christian people in society, Christian people involvement in fostering human right, Christian people participation in promoting civil society
PUSTAKA UTAMA/ REFERENCES
1. Brownlee, M, ”Tugas Manusia Dalam Dunia Milik Tuhan” ( The Roles of People in The World of God), Jakarta: BPK Gunung Mulia, Jakarta.1987.
2. David Bergamini, ”Alam Semesta”,(the Universe) Jakarta: Tira Pustaka.1979,
3. Emanuel Gerrit Singgih, ”Bergereja, Bertheologi dan Bermsyarakat” (Worshipize, theologize, and Socilize) Yogjakarta:TPK. 1997
4. F. Magnis Suseno, ”Etika Politik”. (The Etiquette of Politics). Jakarta: Gramedia 1994,
5. F. Magnis Suseno. ”Kuasa dan Moral” (Power and Moral) Jakarta: Gramedia. 1995.
MATA KULIAH/ COURSE TITLE
IG .091303: AGAMA KATHOLIK IG .091303: CATHOLICS Credits: 2 Semester: 1 or 2
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu mengatasi persoalan dasar yang dihadapi dalam usahanya membangun hidup yang bermartabat. Mahasiswa mampu mengaktualisasikan hidup dan karya Yesus yang diwartakan Gereja dalam kehidupan sehari-hari. Mahasiswa mampu menyikapi secara benar IPTEKS dalam terang iman bagi kehidupan manusia dengan segala dinamikanya.
Students are able to solve fundamental problems encountered along the attempt to carriout life with dignity Students are able to actualize the life and teachings of Jesus Christ as they are dispersed by Church in daily life. Students are able to perceive any development in science and technology in the light of Catholic faith for life and its dynamic changes.
Mahasiswa memahami dan menggumuli persoalan dasar yang dihadapi manusia dalam usahanya membangun hidup yang bermartabat.
Mahasiswa memahami dan menghayati konsep Tritunggal Yang
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KOMPETENSI/ COMPETENCY
Maha Kudus, hidup dan karya Yesus yang diwartakan Gereja dan mengaktualisasikannya dalam kehidupan sehari-hari.
Mahasiswa mampu memahami manfaat ilmu pengetahuan, teknologi, dan seni bagi manusia beriman; bagaimana tanggung jawab manusia dalam mengejar nilai-nilai hidupnya berdasarkan karunia yang diberikan Tuhan kepadanya; memahami bagaimana tanggung jawab terhadap lingkungan hidup.
Students are able to understand and merge into the problems
facing by every human being in their attempt to cultivate lives in dignity.
Students are able to perceive the Trinity doctrine, the life and teachings of Jesus Christ that Church has dispersed and then actualize them throughout the daily life.
Students are able to make use of science, technology, and art of the living of religious people to seek values in their lives and able to bring the Lord’s blessing into their lives as the form of their responsibility towards their surroundings.
POKOK BAHASAN/ SUBJECTS
Manusia dan Moral: Pengantar, pengertian manusia dan moral, hubungan antara manusia dan moral berkaitan dengan persoalan dasar manusia, Martabat manusia, Hakikat dan tanggung jawab manusia.
Ketuhanan yang Maha Esa: Pengantar, pengalaman religius dan pengalaman iman, pengertian Ketuhanan yang Maha Esa dalam kaitan dengan ke Tritungga-an, ke=Tritunggal-an dalam teladan Yesus Kristus
Agama dan Kerukunan: Pengantar, Masalah-masalah agama, Makna agama dalam kehidupan, Hubungan antar umat beragama.
Gereja: Pengantar, Sejarah, hakikat dan sifat-sifat Gereja dewasa ini, Gereja Katolik di Indonesia, Tugas-tugas Gereja
Iman yang memasyarakat: Pengantar, Situasi masyarakat masa kini: Globalisasi, Tanggung jawab sosial, Kapita Selekta
People and Moral: Introduction, Definitions, Definitions of human
and moral, people and Moral in their relation to basic problems in human lives, people dignity, the essence and responsibility of a human being.
The oneness of God: Introduction, Religious and faith experiences, Definitions of the Oneness of God in relation to the Trinity Doctrine, Trinity in the life of Jesus Christ.
Religions and togetherness: Introduction, Problems in Religion, Meanings of Religion in life, relationships across religions.
Church: Introduction, History, The Essence and Natures of Churce in today’s Era, Catholic Churches in Indonesia, the Roles of Church.
Faith that is socializing: Introduction, Situation of today society:
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Globalisation, Social responsibility, Iman yang memasyarakat: Pengantar, Situasi masyarakat masa kini: Globalisasi, Tanggung jawab sosial, Kapita Selekta
PUSTAKA UTAMA/ REFERENCES
1. KWI. Iman Katolik, Buku informasi dan referensi. (Catholic Faith, Books, Information, and References) Jakarta, Obor dan Yogyakarta: Kanisius.1990.
2. Dokumen Vatikan II. (Vatican Document) Jakarta: Penerbit Obor, 1993
3. Kumpulan Dokumen Ajaran Sosial Gereja ( Compilations of the Church Social Teachings) Jakarta: Dokpen KWI, 2001
4. Bernard T. Adeney. Etika Sosial Lintas Budaya. (Social Ettiquatte Across Cultures) Yogyakarta, Penerbit: Kanisius, 2000.
5. Pedoman Gereja Katolik Indonesia, KWI (Indonesia Catholic Church Guide)
MATA KULIAH/ COURSE TITLE
IG 091304: PENDIDIKAN AGAMA HINDU IG 091304 : HINDU EDUCATION Credits: 2 Semester: 1 or 2
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Setelah mengikuti kuliah mahasiswa dapat memahami tentang pengertian Ketuhanan, Tuhan YME yang Nirakara dan Akara, Catur Marga Yoga, sarana, tempat dan hari raya memujanya, konsepsi manusia dan martabat manusia, orang suci dan awatara aktualisasi etika dan moralitas dalam kehidupan, srada, jnana, karma sebagai kesatuan dalam yadnya, trihita karana dan tanggung jawab terhadap lingkungan, hakekat kebersamaan dalam pluralitas beragama, peran umat Hindu dalam mewujudkan masyarakat sejahtera, sumber ajaran Hindu tentang politik, peran agama Hindu dalam perumusan dan penegakan hukum.
At the end of the course students are able to understand the meanings of God; the only God who is impersonal and personal; Four pathways to God; media, places and the days to praise the Gods, conception about human and human dignity, sacret people and awatara and how to actualize the etiquate and moral value in daily life, srada, jnana, karma as a form of unity in yadnya, trihita karana and social responsibilities, the essence of togetherness in plurality in terms of living side by side with various faith, the roles of Hindi in promoting wellbeing societies, political view in Hindu, the roles of Hindu to
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formulating and upholding law.
KOMPETENSI/ COMPETENCY
Mahasiswa dapat memahami dan menjelaskan konsep ke Tuhanan dalam Agama Hindu {Brahma Widya}, catur marga yoga, hakekat manusia Hindu, etika dan moralitas, IPTEKS dalam perspektif Hindu, . kerukunan hidup umat beragama dalam pandangan Hindu,. sistem politik dalam pandangan Hindu dan refleksi nilai hukum Hindu dalam konteks masyarakat hukum Indonesia
Students are able to state and describe the concept of God in Hindu,{Brahma Widya}, catur marga yoga, the essence of being Hindi, etiquete and moral value, Science and Technology from perspective of Hindu, political system from the point of view of Hindu, and reflection of value of law in the context of Indonesia rule governed society.
POKOK BAHASAN/ SUBJECTS
Konsepsi Ketuhanan (Brahma Widya), Pengertian Ketuhanan Tuhan Yang Maha Esa yang nirakara (impersonal) dan akara (personal)
Catur Yoga Marga (empat jalan menuju kepada-Nya), Pengertian Catur Marga Yoga Sarana, tempat dan hari-hari raya memuja-Nya
Hakekat Manusia Hindu , Konsepsi manusia Hindu, Eksistensi dan martabat manusia Tanggung jawab manusia sebagai ciptaan-Nya, Orang suci dan awataranya.
Etika dan Moralitas, Konsepsi etika dalam perspektif Hindu, Aktualisasi etika dan moralitas dalam kehidupan, Misi untuk memperbaiki diri (manawa menuju madhawa). Implementasi kebenaran, kebajikan, kasih sayang, kedamaian, tanpa kekerasan.
Ilmu Pengetahuan teknologi dan seni dalam perspektif Hindu, Sradha, Jnana dan Karma sebagai kesatuan dalam yadnya, Kewajiban menuntut ilmu dan mengamalkan ilmu Tri Hita Karana dan tanggung jawab terhadap alam dan lingkungan ,Seni keagamaan
Conception of God (Brahma Widya), Definitions of The Only God who is impersonal and personal.
Four Pathways to God, Definitions, the four pathways to God, media, place, and days to praise the Gods
The Essence of Hindi, the Conception of Hindi, existence and human dignity, human responsibility to God, the creator, Sacred people and their awatara
Ettiquate and Moral Values, Ettiquate Conception in the perspective of Hindu, Actuaisation of ettiquate and moral values in lives, missions for self reflection from manawa to madhawa, implementation of truth, kindness, love, and peace, without any
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violence
Science and Technology from the perspective of hindu, Sradha, Jnana and Karma as unity in yadnya, rights for learning and implementing studies on Tri Hita Karana and responsibilities towards nature and environment, the arts of religions
PUSTAKA UTAMA/ REFERENCES
1. Wiana,. 1994. Bagaimana Hindu Menghayati Tuha( How to Understand God from the Points of Hindu),. Manikgeni.
2. Wiana, .1982. Niti Sastra, Ditjen Hindu dan Budha. 3. Atmaja, 1974. Panca Sradha,. PHDI Pusat . 4. Titib, 1996. Veda Sabda Suci Pedoman Praktis Kehidupan (Veda
Sabda Suci, Practical Guides for life), Paramita 5. Pudja, 1997, Teologi Hindu (Theology of Hindu), Mayasari
MATA KULIAH/ COURSE TITLE
IG.091305: Agama Budha IG.091305 : Budha Credits: 2 Semester: 1
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa pengertian dan menghayati Hakekat Tuhan Yang Maha Esa serta mengamalkan Sila Ketuhanan Yang Maha Esa, Mahasiswa memiliki pengertian dan memahami adanya Dewa, Bodhisatva, Arahat dan Buddha sehingga mahasiswa mampu melaksanakan suri teladannya, Mahasiswa memahami tentang Bodhisatva dan Buddha serta menghayati dan mengamalkan Dharma, Mahasiswa dapat memahami dan mengerti tentang Hukum Ke – Sunyataan, sehingga mahasiswa dapat menyesuaikan diri dengan hukum Ke-Sunyataan tersebut, Mahasiswa dapat memahami dan mengerti hukum Karma sehingga mahasiswa dapat menerima, menerapkan serta melaksankan .
Students are able to understand the essence of the Oneness of God and bring the first principle of Pancasila into the real life implementation. Students believe and perceive the existance of God, Bodhisatva, Arahat and Buddha as a consequence they are able to follow the teachings. Students believe and perceive Bodhisatva and Budha so that they are able to bring their darma in their lives. Students understand the rules of Sunyataan, so that they are able to adapt themselves into the rules. Students understand Karma, so that they are able to implement the rule in their lives.
KOMPETENSI/ Mahasiswa dapat memahami dan melaksanakan ajaran agama
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COMPETENCY Budha, sesuai ajaran yang dilaksanakan Sang Budha tentang pergaulan dalam masyarakat
Students are able to understand as well as implement the Budha’s teachings on how to live in a real life.
POKOK BAHASAN/ SUBJECTS
Sila Ketuhanan Yang Maha Esa: Catur Paramita, Catur Mara, Brahma Vihara, Bhavana.
Riwayat Hidup Sang Buddha: Kelahiran Bodhisatva, Ramalan Pertapa Asita, Ramalan Para Brahmana, Masa Remaja, Masa Berumah Tangga, Masa Pertapa, Mencapai Buddha, Masa Pembabaran Dharma, Terbentuknya Sangha.
Tentang Bodhisatva: Dana Paramita
Tentang proses tercapainya tingkat Bodisatva: Sila Paramita Tentang Sad- Paramita: Viriya Paramita The First Principle of Pancasila, The Oneness of God: Catur
Paramita, Catur Mara, Brahma Vihara, Bhavana.
Biography of Lord Budha: the born of Bodhisatva, Asita’s Prediction, the predictions of Brahmana, adolesence or teen age, period of family hood, the Hermit period, Achieving Buddha’s enlightment, times for learning Budhism together, Sangha achievement.
About Bodhisatva: Dana Paramita
About process of achieving Bodisatva level: Paramita Principles About Sad- Paramita: Viriya Paramita
PUSTAKA UTAMA/ REFERENCES
1. Dhamma Pada(Depag, 1904) 2. Dhamma Sari ( Depag, 1904) 3. Kuliah Agama Budha (Depag 1903)
MATA KULIAH/ COURSE TITLE
SK 091201: Kimia Dasar I SK 091201: Fundamental Chemistry I Credits: 4 Semester: I
TUJUAN PEMBELAJARAN/ LEARNING
Mahasiswa mampu menggunakan prinsip-prinsip dasar ilmu kimia untuk pengembangan kemampuan diri dalam memecahkan permasalahan pada kehidupan sehari-hari
Students are able to use the basic principles of chemistry to
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OBJECTIVES develop skills in solving problems ineveryday life
KOMPETENSI/ COMPETENCY
Mahasiswa mampu menerangkan prinsip-prinsip dasar ilmu kimia meliputi hukum laju, kesetimbangan, elektrokimia, kimia inti dan aplikasinya dalam menjelaskan sifat, struktur, reaktivitas dan klasifikasi senyawa-senyawa/unsur-unsur organik dan anorganik.
Mahasiswa dapat melakukan perhitungan-perhitungan dasar kimia. Mahasiswa dapat melakukan eksperimen-eksperimen dasar kimia
serta mengaitkan hasil pengamatannya dengan teori-teori dasar kimia beserta aplikasinya.
Students are able to explain the basic principlesof chemistry covering the legal rate, equilibrium, electrochemistry, chemical core and its applicationin explaining the nature, structure, reactivity and classification of the compounds/ elements oforganic and inorganic;
Students can perform basic calculations of chemistry; Students can conduct experiments in basic chemistry and relate the
observations with the basic theories of chemistry and its application
POKOK BAHASAN/ SUBJECTS
Dinamika reaksi, Kesetimbangan Kimia, Elektrokimia, Kimia Inti, Pengenalan Unsur, Senyawa Organik dan Anorganik serta klasifikasinya.
The dynamics of reaction, Chemical Equilibrium,Electrochemistry, Chemistry Core, Introductory Elements, Organic and Inorganic Compounds and classification.
PUSTAKA UTAMA/ REFERENCES
MATA KULIAH/ COURSE TITLE
IG 091310: Pengantar Teknologi informasi dan Komunikasi
IG 091310: Introduction of Information and Communication Technology
Credits: 2 Semester: II
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat mengenal dan menggunakan perangkat teknologi informasi dan komunikasi, sehingga dapat membantu proses pembelajaran pada jurusan masing-masing.
Students can recognize and use information and communi-cation technology devices, which can help the learning process in each department.
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KOMPETENSI/ COMPETENCY
Mahasiswa mampu mendefinisikan Teknologi Informasi dan Komunikasi
Mahasiswa mampu menjelaskan manfaat Teknologi Informasi dan Komunikasi
Mahasiswa mampu menyelesaikan masalah dengan bantuan Teknologi Informasi dan Komunikasi
Mahasiswa bisa menggunakan Teknologi Informasi dan Komunikasi untuk berbagi aplikasi
Students are able to define Information and Communications Technology
Students are able to explain the limits benefits of Information and Communication Technology
Students are able to solve the problem by using Information and Communication Technology
Students can use Information and Communications Technology for various applications
POKOK BAHASAN/ SUBJECTS
Definisi, sejarah, karakteristik, manajemen Teknologi Informasi dan Komunikasi;
Konten Teknologi Informasi dan Komunikasi; Peralatan Teknologi Informasi dan Komunikasi; Jaringan Komputer dan Komunikasi Data; Layanan Teknologi Informasi dan Komunikasi; Perangkat Lunak; Pengamanan dan Etika dalam Teknologi Informasi dan
Komunikasi; Ketrampilan Praktek.
The definition, history, characteristics, management of Infor-mation and Communication Technology
Content of Information and Communication Technology Information and Communication Technology Equipment. Computer Network and Data Communication Information Technology and Communication Services Software Security and Ethics in Information Technology and Communica-
tion Skills Practice
PUSTAKA UTAMA/ REFERENCES
1. Diktat PTIK ITS tahun 2009
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MATA KULIAH/ COURSE TITLE
SF 091304: Fisika Dasar II SF 091304: Fundamental Physics II Credits: 4 Semester: II
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan dan menggunakan rumusan hukum-hukum fisika tentang medan listrik dan medan magnet.
Students are able to explain and use the formulation of physical laws about the electric and magnetic fields.
KOMPETENSI/ COMPETENCY
Kemampuan memecahkan masalah; Mengikuti perkembangan sains dan teknologi; Dapat menerapkan dasar-dasar fisika listrik magnet pada bidang
lain; Ability to solving problems; Following the development of science and technology; Able to apply the basics of physics electricity magnetism in other
fields;
POKOK BAHASAN/ SUBJECTS
Muatan listrik, hukum Coulomb; Medan listrik: kuat medan listrik, garis gaya, perhitungan kuat medan listrik;
Hukum Gauss: fluks, hukum Gauss dan aplikasinya; Potensial listrik energi potensial, medan dan potensial listrik;
Kapasitor: Kapasitansi, dielektrik; Arus listrik: arus dan gerak muatan, hukum Ohm, energi dalam rangkaian listrik; Rangkaian arus searah: hukum Kirchoff, rangkaian RC;
Medan magnet: gaya magnet, momen gaya, sumber medan magnet; Induksi magnetik: fluks magnet, GGL induksi, generator;
Arus bolak balik: arus bolak-balik dalam resistor, induktor, kapasitor, rangkaian R-L, R-C, R-L-C.
Electric charge, Coulomb's law, electric field: electric field strenght, lines of force, the calculation of electric field strength;
Gauss'Law: flux, Gauss' law and its application; electric potential, potential energy field and electric potential;
Capacitors: Capacitance, dielectric, electric current: current and movement of charge, Ohm's law, the energy in the electrical circuit; series of direct current: Kirchoff law, the RC circuit;
Magnetic field: magnetic force, moment of force,the source of the magnetic field, magnetic induction: magnetic flux, induced emf, generators;
ac: alternating current in the resistors, inductors, capacitors, circuit R-L, R-C, R-L-C.
PUSTAKA UTAMA/
1. Halliday & Resnick,"Fundamental of. Physics'. John Wiley and Sons, New York, 1987
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REFERENCES 2. Alonso & Finn,"Fundamental University Physics", Addison Wesley PubLComp.lnc, 1990
3. Tipler, P.A.,(terj. B. Soegijono), °Fisika : untuk Sains dan Teknik, Jilid 2", Erlangga, Jakarta, 2001
4. Giancoli, DC., (terj, Yuhilza H), 'Fisika, jilid 1", Erlangga, Jakarta, 2001
5. Tim Dosen,"Diktat Fisika l1*,'Soal-soaf Fisika I!", Fisika FMIPA-ITS 6. . -, "Petunjuk Praktikum Fisika Dasar", Fisika, MIPA-ITS
MATA KULIAH/ COURSE TITLE
SF 091305: Fisika Dasar III SF 091305: Fundamental Physics III Credits: 2 Semester: II
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan dan menggunakan rumusan hukum-hukum fisika tentang termo-dinamika, gelombang dan optik.
Students are able to explain and use the formulation of physical laws of thermodynamics, waves and optics.
KOMPETENSI/ COMPETENCY
Kemampuan untuk memecahkan masalah sederhana fisika Kemampuan untuk mengikuti perkembangan sains dan teknologi Kemampuan untuk menerapkan dasar-dasar fisika pada bidang lain
Ability to solving a simple problem of physics; Ability to follow the development of science and technology; Ability to apply the basics of physics in other fields
POKOK BAHASAN/ SUBJECTS
Termodinamika: hukum gas ideal, hukum pertama dan hukum kedua termodinamika;
Gelombang: fungsi gelombang, cepat rambat gelombang, energi dan intensitas gelombang, efek Dopler;
Optika geometri: refleksi dan refraksi oleh permukaan datar dan lengkung, lensa tipis dan tebal, pembentukan bayangan pada lensa dan cermin, deviasi dan dispersi pada prisma, alat-alat optis; interferensi, difraksi dan polarisasi.
Thermodynamics: law for ideal gas, the first law of thermody-namics; the second law of thermodynamics.
Waves: wave function, wave velocity, energy and intensity of wave, Dopler effect;
Geometry Optics: reflection and refraction on the surface of flat and curved surfaces, thin and thick lens , image formation by mirrors and lenses, deviation and dispersion in the prism, optical instruments; interference, diffraction and polarization.
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PUSTAKA UTAMA/ REFERENCES
1. Halliday & Resnick,"Fundamental of. Physics'. John Wiley and Sons, New York, 1987
2. Alonso & Finn,"Fundamental University Physics", Addison Wesley PubLComp.lnc, 1990
3. Tipler, P.A.,(terj. B. Soegijono), °Fisika : untuk Sains dan Teknik, Jilid 2", Erlangga, Jakarta, 2001
MATA KULIAH/ COURSE TITLE
SF 091306: Metode Pengukuran Fisika SF 091306: Physycal Measurement Method Credits: 3 Semester: II
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan cara pengukuran besaran-besaran fisis, mampu menggunakan metode pengukuran untuk menganalisis besaran fisis yang diperoleh dari hasil pengukuran sederhana di lapangan (laboratorium).
Students are able to explain how the measurement of physical quantities, capable of using the measurement method to analyze the physical quantities obtained from the simple measurement in the field (laboratory)
KOMPETENSI/ COMPETENCY
Kemampuan memecahkan masalah; Kemampuan Mengikuti perkembangan sains dan teknologi; Dapat menerapkan dasar-dasar metode pengukuran pada bidang lain;
Ability to solving problems; Ability to follow the development of science and technology; Ability to apply the basics of measurement methods in other fields;
POKOK BAHASAN/ SUBJECTS
Pengamatan dan pengukuran besaran-besaran fisika; Sistem pengukuran dan kalibrasi; Analisis pengukuran: ralat rambang, sistem matrik, perambatan ralat, Pengolahan data, statistik Poisson, model matematik, curve fitting;
Observation and measurement of physical quantities; Measurement system and calibration; Analysis of measurements: erratum Rambang, matrix systems,
propagation of error, Data processing, Poisson statistics, mathematical modeling, curve
fitting;
PUSTAKA UTAMA/
1. Beer,J., “ Theory of Error”, Addison Wisley, 1957 2. Imron, A., "Diktat Analisa Pengukuran Fisis", Fisika, MIPA-ITS
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REFERENCES 3. Dunn, ”Measurement and data analysis for engineering and science’, McGraw-Hill, 2005
MATA KULIAH/ COURSE TITLE
SM 091304: Kalkulus II SM 091304: Calculus II Credits: 4 Semester: II
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat memahami konsep-konsep dasar tentang teknik pengintegralan fungsi satu peubah dan aplikasinya, fungsi transenden, limit-limit bentuk taktentu, deret takhingga, persemaan parametrik dan kutub, serta geometri dan vektor.
Students can understand basic concepts about the function of one variable integration technique and its applications, transcen-dental functions, limits the form of not-necessarily, series no-till, parametric and polar equations, and the geometry and vector
KOMPETENSI/ COMPETENCY
Kemampuan memecahkan masalah Mengikuti perkembangan sains dan teknologi Dapat menerapkan dasar-dasar Matematika pada bidang lain;
Ability to solving problems. Following the development of science and technology Able to apply the basics of mathematics in other fields;
POKOK BAHASAN/ SUBJECTS
Pengertian tentang teknik-teknik pengintegralan; penerapan integral tertentu; berbagai bentuk fungsi transenden, limit bentuk taktentu dan integral
tak wajar, deret tak hingga; persamaan parametrik dan koordinat kutub; pengantar geometri datar dan ruang dengan pendekatan vektor.
An understanding of the techniques of integration; The application of definite integrals; Various forms of transcendental functions, limits the form of not-
necessarily and unnatural integral, infinite series; Parametric equations and polar coordinates; Introduction flat geometry and space vector approach.
PUSTAKA UTAMA/ REFERENCES
1. Tim penyusun Buku Ajar Kalkulus Jurusan Matematika FMIPA ITS, “Buku Ajar Kalkulus II” edisi ke-4, 2005.
2. Anton, H., Calculus, A New Horison, 6th ed., John Wiley & Sons. New York, 1999.
3. Purcell, J.E., Rigdon, S.E., Calculus, 8th ed., Prentice-Hall, New Jersey,
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2000.
MATA KULIAH/ COURSE TITLE
SK 091202: Kimia Dasar II SK 091202: Fundamental Chemistry II Credits: 3 Semester: II
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menggunakan prinsip-prinsip dasar ilmu kimia untuk pengembangan kemampuan diri dalam memecahkan permasalahan pada kehidupan sehari-hari
Students are able to use the basic principles of chemistry to develop skills in solving problems in everyday life
KOMPETENSI/ COMPETENCY
Mahasiswa mampu menerangkan prinsip-prinsip dasar ilmu kimia meliputi hukum laju, kesetimbangan, elektrokimia, kimia inti dan aplikasinya dalam menjelaskan sifat, struktur, reaktivitas dan klasifikasi senyawa-senyawa /unsur-unsur organik dan anorganik.
Mahasiswa dapat melakukan perhitungan-perhitungan dasar kimia. Mahasiswa dapat melakukan eksperimen-eksperimen dasar kimia
serta mengaitkan hasil pengamatannya dengan teori-teori dasar kimia beserta aplikasinya.
Students are able to explain the basic principles of chemistry covering the legal rate, equilibrium, electrochemistry, Nuclear chemistry and its application in explaining the nature, structure, reactivity and classification of the compounds / elements of organic and inorganic;
Students can perform basic calculations of chemical; Students can perform basic chemical experiments and observa-
tions relate to the basic theories of chemistry and its application.
POKOK BAHASAN/ SUBJECTS
Dinamika reaksi, Kesetimbangan Kimia, Elektrokimia, Kimia Inti, Pengenalan Unsur, Senyawa Organik dan Anorganik serta klasifikasinya.
The dynamics of reaction, Chemical Equilibrium, Electrochemistry, Nuclear Chemistry, Introductory Elements, Organic and Inorganic Compounds and their classification.
PUSTAKA UTAMA/ REFERENCES
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MATA KULIAH/ COURSE TITLE
IG 091308: Bahasa Inggris IG 091308: English Credits: 2 Semester: II
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat memahami isi sebuah artikel/ jurnal/ teks akademik mengenai sains dan teknologi yang ditulis dalam bahasa Inggris. Mahasiswa dapat mendiskripsikan informasi atau isi dari argumentatif teks lisan setelah menyimak teks tersebut. Mahasiswa dapat mengungkapkan argumentasi atau ide-ide logis secara lisan atau tulisan.
Students are able to understand the content of various acedemic texts in Science and Technology. Students are able to describe any information perceived from spoken argumentative articles. Students are able to express either oral or written the logical ideas.
OMPETENSI/ COMPETENCY
Mahasiswa dapat menerapkan strategy membaca yang efektif untuk menafsirkan isi argumentatif teks berbahasa Inggris yang berbasis sains dan teknologi.
Mahasiswa dapat menafsirkan isi berbagai jenis teks lisan yang berbahasa Inggris.
Mahasiswa dapat menyampaikan secara lisan dan tulisan argumen-argumen atau ide-ide dalam bahasa Inggris.
Students are able to employ effective reading strategies to understand any argumentative texts in Science and Technology
Students are able to interpret concisely any spoken texts.
Students are able to present either oral or written the ideas or argument they have.
POKOK BAHASAN/ SUBJECTS
Scanning: Scanning in everyday life; scanning tables; scanning academic articles/jurnals,; scanning encyclopedia entri.
Previewing and Predicting: previewing and predicting book covers to foresee the contents; listen to spoken text and predict the suitable picture or figures; Say out loud the undelined reasons for predicting.
Vocabulary Knowledge for Effective Reading and listening: guessing meaning from context in sentences; using grammar to guess word meaning; recognizing words connecting ideas.
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Topics: stating and recognizing topics from a paragraph or a text in written and spoken text; working with the topics, finding and writing the topic sentence.
Main Ideas: finding the main idea in the topic sentence, stating main ideas of a paragraph, develop topic to main ideas, develop supporting details for the main ideas, producing an outline.
PUSTAKA UTAMA/ REFERENCES
1. Mikulecky and Jeffries. “More Reading Power” Addison-Wesley publishing Company, 1996
2. Supriyanto. ”Critical Reading” ITB. 2007. 3. Rooks. “ Paragraph Power: Communicating Ideas through
Paragraphs.Prentice Hall Regents. 1999 4. Hayden, R.E., Pilgrim, D.W, and Haggard, A.Q. “Mastering
American English. Prentice Hall, Inc. 2000. 5. Thomson and Martinet. “A Practical English Grammar. Oxford
University Press.1995.
MATA KULIAH/ COURSE TITLE
SF 091307: Elektronika Dasar I SF 091307: Fundamental Electronics I Credits: 3 Semester: III
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu mengenal, memahami dan menganalisa model-model rangkaian serta dapat mengetahui respons rangkaian.
Students are able to recognation, state and analysis circuits models, and knows about circuit respons
KOMPETENSI/ COMPETENCY
Kemampuan memecahkan masalah terkait dengan elektronika Mengikuti perkembangan sains dan teknologi Kemampuan menerapkan dasar-dasar elektronika pada bidang
fisika dan yang lain
Ability to solving the problem of electronic circuits Follow the develop of Science and technology Ability to application of fundamental electronics in physics
problem and others
POKOK
Pembagi tegangan dan arus, Pengukuran tegangan dan arus, Penggunaan alat ukur tegangan dan arus;
Jembatan Wheatstone, Percobaan Jembatan Wheatstone,
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BAHASAN/ SUBJECTS
Rangkaian ekivalen; Praktikum:
Galvonometer, rangkaian seri dan pararel Analisa rangkaian : metode titik dan metode mesh, Rangkaian
ekivalen Thevenin dan Norton, Transfer daya maximum; Rangkaian kombinasi RLC, Respons orde 1 rangkaian RC dan RL,
Respons alami dan step rangkaian RLC;
Voltage and Curent devider, voltage and current measurement and the experiment
Wheatstone bridge, Wheatstore bridge experiments, equivalen circuits,
Galvonometer, paralel and serie Circuit; and the experiments
Circuit analysis : node metods and mesh methods;
Equivalen Circuit;Thevenin and Norton; Maximum of Power Transfer
RLC Circuit combinations, Respons of circuit order for RC and RL Natural Respon and step of RLC circuit;
Work laboratory; Serie and Pararel Circuit,
PUSTAKA UTAMA/ REFERENCES
1. James W. Nilsson dan Susan A. Riedel, 2008, Electronic Circuit, Pearson Prentice Hall.
2. Petunjuk Praktikum Laboratorium Madya 3. Sutrisno, 1986, “ Elektronika”, Penerbit ITB
MATA KULIAH/ COURSE TITLE
SF 091309: Fisika Matematika I SF 091309: Mathematical Physics I Credits: 4 Semester: III
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu mengaitkan fenomena fisis dengan formula matematis yang sesuai, mampu mengurai serta menyelesaikan dengan berbagai metode analitis yang ada.
Mahasiswa mampu menjelaskan teori matematis yang kemudian digunakannya untuk menyelesaikan persoalan-persoalan fisika.
Students are able to link the physical phenomena with the appropriate mathematical formula, is able to parse and finish with a variety of existing analytical methods.
Students are able to explain the mathematical theory which is then used to solve physics problems
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KOMPETENSI/ COMPETENCY
Kemampuan pemahaman masalah fisika Kemampuan penerapan matematika dalam bidang fisika Kemampuan penerapan matematika dalam perkembangan
metode penyelesaian masalah fisis
Ability understanding of physics problems The ability of the application of mathematics in physics The ability of the application of mathematics in the development
of methods of solving physical problems
POKOK BAHASAN/ SUBJECTS
Persamaan diferensial biasa dan transformasi Laplace; Analisis vektor (kalkulus vektor); Bilangan kompleks; Fungsi kompleks; Persamaan linier: vektor, matriks dan determinan; Deret; Deret Fourier; Fungsi variabel banyak; Diferensiasi Parsial.
Differensial Equation and Laplace Trasfrom Vector analysis (Vector Calculus)
Complex Variable; Complex Functions Serries; Fourier Serries; Multivariables Functions, Differensial
Partials.
PUSTAKA UTAMA/ REFERENCES
1. Purwanto, A.,"Diktat Fisika Matematika", Fisika, MIPA-ITS, Surabaya, 2003
2. Boas, M.L.,“Mathematical Methods in the Physical Science”, Edisi 3, John Wiley Sons, New York, 2006.
3. Arfken, G.B. dan Weber, H.J.,”Mathematical Methods for Physicists”, Edisi 3, Academic Press, 2001.
4. Butkov, B., “Mathematical Physics”, Addison Wesley, California, 1977.
5. Riley, K.F., Hobson, M.P. dan Bence, S.J.,”Mathematical Methods for Physics and Engineering”, Edisi 3, Cambridge University Press, 2006.
MATA KULIAH/ COURSE TITLE
SF 091311: Termodinamika SF 091311: Thermodynamics Credits: 3 Semester: III
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan pengertian dasar termodinamika, persamaan keadaan hukum-hukum termodinamika I dan II.
Memahami konsep temperatur, kesetimbangan panas, keterkaitan kerja dan kalor, serta entropi.
Memahami penerapan konsep-konsep termodinamika klasik.
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Students are able to explain a basic understanding of thermody-namics, equation of state laws of thermodynamics I and II.
Understand the concept of temperature, thermal equilibrium, the relationship of work and heat, and entropy.
Understand the application of the concepts of classical thermo- dynamics
KOMPETENSI/ COMPETENCY
Kemampuan mahasiswa dalam analisis sistem termodinamika. Kemampuan penerapan hukum thermodinamika dalam berbagai
persoalan. Kemampuan mengikuti perkembangan teknologi.
The ability of students in the analysis of thermodynamic systems. The ability of the application of thermodynamic laws in a variety
of issues. Ability to follow developments in technology
POKOK BAHASAN/ SUBJECTS
Pandangan makroskopik dan mikroskopik, lingkup termodinamika; kesetimbangan termal, temperatur, termokopel, kesetimbangan
termodinamika, diagram PV dan PT, persamaan keadaan, perubahan differensial keadaan dan penerapannya,
kerja, proses kuasi-statik, kalor dan hukum pertama termodi-namika, proses terbalikkan dan takterbalikkan, entropi, siklus Carnot, entalpi, fungsi Helmholtz dan Gibbs, kapasitas panas, perubahan fase.
Macroscopic and microscopic view, the scope of thermodynamics; Thermal equilibrium, temperature, thermocouple, thermodynamic
equilibrium, PV and PT diagrams, equation of state, differential changes in circum stances and its application,
Work, the process of quasi-static, heat and first law of thermo-dynamics,
Reverse the process and no-reverse out, entropy, Carnot cycle, enthalpy,
Helmholtz function and Gibbs, heat capacity, phase changes.
PUSTAKA UTAMA/ REFERENCES
1. Zemansky, M.W, & R. H. Dittmann (terj: The Houw Liong, Ph.D)," Kalor dan Termodinamika", penerbit ITB, 1986.
2. Sears. F.W., “An Introduction to Thermodynamics: the Kinetic Theory of Gases and Statistical Mechanics”, Addison Wesley, 1963.
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MATA KULIAH/ COURSE TITLE
SF 091312: Fisika Modern SF 091312: Modern Physics Credits: 4 Semester: III
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan konsep-konsep fisika modern agar mahasiswa mempunyai pengetahuan dasar bagi kuliah fisika kuantum
Students are able to explain the concepts of modern physics for students to have basic knowledge of quantum physics lecture
KOMPETENSI/ COMPETENCY
Kemampuan memahami konsep fisika modern Kemampuan mengikuti perkembangan teknologi kuantum;
Ability to understand the concepts of modern physics Ability to follow the development of quantum technology;
POKOK BAHASAN/ SUBJECTS
Teori relativitas khusus, Radiasi benda hitam, Efek fotolistrik, Praktikum efek fotolistrik, Praktikum milikan;
Efek Compton, Postulat de Broglie, Dualitas partikel – gelombang Ketaktentuan Heisenberg, Teori atom Bohr, Praktikum spektrum
atom; Kaidah kuantisasi, Atom mirip-hidrogen, Atom banyak –elektron,
Molekul; Zat padat, Pengantar Fisika Inti : inti atom, radioaktivitas dan reaksi
inti;
The theory of special relativity, black body radiation, photoelectric effect, photo electric effect Practicum, Practicum appropriation;
Compton effect, de Broglie's postulates, particle duality – wave Heisenberg uncertainty, Bohr's atomic theory, atomic spectra of the
practicum; Rule quantization, hydrogen atom-like, many-electron atom, mole-
cule; Solids, Introduction to Physics Nucleus: the nucleus, radioactivity and
nuclear reaction;
PUSTAKA UTAMA/ REFERENCES
1. Beiser, A. (terj: The How Liong), “Konsep Fisika Modern”, Erlangga, cetakan ke-dua, Jakarta, 1992
2. Eisberg, R. & Resnicks, R., “Quantum Physics of Atoms, Molecules, Solids, Nuclei, and Particles”, John Wiley & Sons, New York, 2nd Ed., 1985.
3. Krane, S.K (terj: Hans J. Wospakrik), “Fisika Modern”, UI Press, Jakarta, 1992.
4. Serway, R.A, Moses, C.J and Moyer, C.A, “Modern Physics”, third edition, 2005
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MATA KULIAH/ COURSE TITLE
SF 091313: Mekanika SF 091313: Mechanics Credits: 4 Semester: III
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan dan menggunakan rumusan-rumusan tentang berbagai jenis gerak dari suatu partikel ,gerak sistem partikel, gerak benda kontinyu (fluida dan padatan) serta penyelesaian persamaan gerak yang tidak sederhana.
Students are able to explain and use formulas of various types of motion of a particle, motion of particle systems, motion of the continuous (fluidand solids) and the resolution of equations of motion are not simple.
KOMPETENSI/ COMPETENCY
Kemampuan memahami permasalan mekanik Kemampuan analisis bidang fisika Kemampuan beradaptasi dengan perkembangan teknologi
Ability to understand mechanical problems Ability to analyze the field of physics Ability to adapt to technological developments
POKOK BAHASAN/ SUBJECTS
Gerak partikel satu, dua dan tiga dimensi; Konservasi energi; Konservasi momentum; Medan Gravitasi; Gerak gaya sentral; Gerak sistem partikel; Gerak
sistem koordinat; Rotasi disekitar sumbu, Rotasi benda kaku, Mekanika media kontinyu;
Kinematika fluida; Dinamika fluida; Persamaan Lagrange; Persamaan Hamilton; Tensor Inersia;
The motion of particles one, two and three dimensions; Conservation of energy, conservation of momentum; Gravity field; central force motion; Motion particle system; motion
coordinate system; rotation around the axis, rotation of rigid bodies, mechanics of continuous media;
Kinematics of fluid; fluid dynamics; Lagrange equation, Hamilton equation; Inertia Tensor;
PUSTAKA UTAMA/ REFERENCES
1. Arya, Atam Parkash, “Introduction to Classical Machanics”, Allyn and Bacon, Boston, 1990
2. Barger, V. & M. Olsson, “Classical Mechanics : A Modern Perspective”, McGraw-Hill Inc., New York, 1995
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MATA KULIAH/ COURSE TITLE
IG 091306: Kewarganegaraan IG 091306: Civics Credits: 2 Semester: III
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Membantu mahasiswa mengembangkan potensinya untuk menguasasi ilmu pengetahuan, ketrampilan, dan sikap kewarganegaraan dan nilai-nilai yang diperlukan dalam rangka penerapan ilmu, profesi dan keahliannya serta berpartisipasi dalam kehidupan masyarakat dari komuniti setempat, bangsa dan dunia.. Menjadi warga Negara yang cerdas, demokratik dan berkeadaban, dan bertanggung jawab, menggalang kemampuan kompetitif bangsa di era globalisasi, yang efektif mencakup: Pemahaman dasar tentang cara kerja demokrasi dan lembaga-lemabaganya. Pemahaman tentang “rule of law” dan HAM seperti tercermin dalam rumusan-rumusan perjanjian dan kesepakatan internasional dan local. Penguatan ketrampilan partisipatif yang akan memberdayakan peserta didik untuk merespons dan memecahkan masalah-masalah masyarakat secara demokratis. Pengembangan budaya demokrasi dan perdamaian pada lembaga-lembaga pendidikan dan seluruh aspek kehidupan masyarakat.
To help the students to develop their potencies in mastering
sciences skills, and citizenship attitudes and values. Which are required in the applications / implemen-tations of sciences, profession and profi-ciency, and also to participate in the local communities, nation and world., to help the students to be intelligent, democratic and civilized citizen, and to be citizens having respon sibilities, and capabilities in mobilizing the abilities, of national competitiveness in the globalization era that effectively cover:. Basic understanding with the working law/way of democracy and its institutions.. Understanding with the rule of low and human rights , such as they are reflected in the formula of agreements, and also in the local and international accords.. Improving participative skills which will strengthen participants to respond and solve social problems democratically. Improving democratic and peaceful cultures in the institutions of education and all aspects of social life.
Menjadi ilmuwan dan professional yang memiliki rasa
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KOMPETENSI/ COMPETENCY
kebangsaan dan cinta tanah air, demokratis yang berkeadaban menjadi warga Negara yang memiliki daya saing; berdisiplin; dan
berpartisipasi aktif dalam membangun kehidupan yang damai berdasarkan sistem nilai Pancasila.
To become scientists and professionals having nationalism and patriotism spirits, democratic and civilized citizens ;
To become citizens having competitive powers, and disciplines, and taking part actively in the development of peaceful life based on the system of Pancasila values.
POKOK BAHASAN/ SUBJECTS
Filsafat Pancasila Identitas Nasional Hak dan Kewajiban warga negara Negara dan Sistem Konstitusi Demokrasi di Indonesia The Philoshophy of Pancasila National identity Citizen’s rights and obligation State and system of constitution Democracy in Indonesia
PUSTAKA UTAMA/ REFERENCES
1. Armaidy Armawi, Geostrategi Indonesia, (Indonesian Geostrategy) Jakarta, Direktorat jenderal Pendidikan Tinggi, 2006
2. Azyumardi Azra, Paradigma Baru Pendidikan Nasional dan Rekonstruksi dan Demokratisasi, (A new Paradigm of National Education and reconstruction and Democratization) Penerbit Kompas, Jakarta, 2002
3. Bahar, Dr. Saefrodin, Konteks Kenegaraan, Hak Asasi Manusia, (State Context on Human Rights) Pustaka Sinar Harapan, Jakarta, 2000.
4. Cassesse, Antonio, Human Right In a Change Word, Hak-Hak Asasi Manusia Di dunia Yang Berubah (terjemahan R.Zainudin), Yayasan Obor Indonesia, Jakarta, 1994.
5. Kaelan, Pendidikan Kewarganegaraan, (Citizenship Education) UGM Press, Yogyakarta 2005.Perspective”, McGraw-Hill Inc., New York, 1995
MATA KULIAH/ COURSE TITLE
SF 091205: Metode Numerik SF 091205: Numerical Method Credits: 2
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Semester: IV
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat memahami pemecahan numerik, persoalan-persoalan matematika yang digunakan dalam fenomena fisika, dan membuat program sederhana untuk menyelesaikan persoalan-persoalan itu.
Students can understand the numerical solution, the problems of mathematics used in physical phenomena, and create a simple program to solve those problems.
KOMPETENSI/ COMPETENCY
Kemampuan melakukan pemrograman dari algoritma matematika;
Kemampuan mengikuti perkembangan teknologi pemrograman matematika;
Ability to do programming from mathematical algorithms; Ability to follow the development of programming technology
mathematics
POKOK BAHASAN/ SUBJECTS
Akar persamaan, persamaan linier, persamaan tak-linier; Nilai dan vektor eigen; Interpolasi polinomial, integrasi numerik; Persamaan diferensial biasa; Fungsi-fungsi khusus, masalah beda-hingga;
The roots of equations, linear equations, non-linear equations; The value and eigen vectors; Polynomial interpolation, numerical integration; Ordinary differential equations; Special functions, finite difference problem.
PUSTAKA UTAMA/ REFERENCES
1. Suli, E. dan Mayers, D.’”Introduction to Numerical Analysis”, Cambridge University Press, 2003.
2. Karris, S.T.,”Numerical Analysis using Matlab and Spreadsheet”, Edisi 2, Orchard Publications,
MATA KULIAH/ COURSE TITLE
SF 091308: Elektronika Dasar II SF 091308: Fundamental Electronics II Credits: 3 Semester: IV
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu memahami dan menjelaskan arus bolak-balik, analisis dan pemakaiannya (aplikasi). Mahasiswa mampu mengaplikasikan prinsip induksi elekromagnetik.
Students are able to state and describe the alternating
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current, analysis and applications. Students are able to application electromagnetic inductions
KOMPETENSI/ COMPETENCY
Kemampuan memahami dan menjelaskan sumber sinusoida Kemampuan analisis masalah dalam elektronik Kemampuan mengikuti perkembangan teknologi elektronika
Ability to state and describe sinusoidal source Ability to analysis in electronic problems Ability to follow the develop of electronic technologies
POKOK BAHASAN/ SUBJECTS
Analisis keadaan mantap (steady state), Perhitungan daya dalam kondisi mantap;
Rangkaian tiga fasa Pengantar transformasi laplace, Analisa rangkaian menggunakan
transformasi laplace; Teori Semikonduktor: ikatan kovalen, semikonduktor intrinsik,
semikonduktor ekstrinsik; Dioda semikonduk-tor; Transistor sambungan: terbentuk-nya transistor sambungan, komponen arus transistor, stabilitas dan titik kerja transistor, model h transistor, persamaan penguat.
Praktikum : (Transformator arus, Transformasi tegangan, Induksi elektromagnetik, Wattmeter, Histerisis)
Steady State analysis, Power of Steady State Condition; Three Phasa Circuit; Introduction of Laplace transform; Circuit analysis using
Laplace transform; Semiconductor Teory, Covalen bounded, intrinsics & extrinsics
semiconductor; Semiconductor dioda, Transistors functions; Component of current intransistor, statility and central point of transistor; transistor model op-amp equations
Laboratory work; Current transformation, voltage transformator, electromagnetic induction, Watt meter, histeresys
PUSTAKA UTAMA/ REFERENCES
1. James W. Nilsson dan Susan A. Riedel, 2008, Electronic Circuit, Pearson Prentice Hall.
2. Petunjuk Praktikum Laboratorium Madya 3. Sutrisno, 1986, “ Elektronika”, Penerbit ITB
MATA KULIAH/ COURSE TITLE
SF 091310: Fisika Matematika II SF 091310: Mathematical Physics II Credits: 4 Semester: IV
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TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu mengaitkan fenomena fisis dengan formula matematis yang sesuai, mampu mengurai serta menyelesaikan dengan berbagai metoda analitis yang ada.
Students are able to link the physical phenomena with the appropriate mathematical formula, is able to parse and finish with a variety of existing analytical methods.
KOMPETENSI/ COMPETENCY
Kemampuan pemahaman masalah fisika Kemampuan penerapan matematika dalam bidang fisika Kemampuan penerapan matematka dalam perkembangan metode
penyelesaian masalah fisis
Ability understanding of physics problems; The ability of the application of mathematics in physics; Ability matematka application in the development of methods
of solving physical problems
POKOK BAHASAN/ SUBJECTS
Fungsi gamma; Fungsi beta; Rumus stirlling; Solusi deret (metoda Frobenius);
Fungsi-fungsi khusus (Polinomial Legendre, Bessel, Weber, Hermite, Laguerre);
Persamaan differensial parsial (boundary value problems); Transformasi integral; Kalkulus variasi; Persamaan integral. The function of gamma, beta functions; Formulas stirlling;
Solutions series (Frobenius method); Special functions (Legendre Polynomial, Bessel,Weber, Hermite,
Laguerre); Partial differential equations (boundary valueproblems); Transformation of the integral; calculus variations, integral
equations.
PUSTAKA UTAMA/ REFERENCES
1. Boas, M.L.,“Mathematical Methods in the Physical Science”, Edisi 3, John Wiley Sons, New York, 2006.
2. Arfken, G.B. dan Weber, H.J.,”Mathematical Methods for Physicists”, Edisi 3, Academic Press, 2001.
3. Butkov, B., “Mathematical Physics”, Addison Wesley, California, 1977.
4. Riley, K.F., Hobson, M.P. dan Bence, S.J.,”Mathematical Methods for Physics and Engineering”, Edisi 3, Cambridge University Press, 2006.
MATA KULIAH/ COURSE TITLE
SF 091314: Gelombang SF 091314: Wave Credits: 4 Semester: IV
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Mahasiswa mampu memahami konsep dasar gelombang dan sifat-sifatnya, serta mampu meng-gunakannya pada gelombang elastik & gelombang elektromagnetik.
Students are able to understand the basic concepts of wave and its properties, and able to use them on elastic waves and electro-magnetic waves
KOMPETENSI/ COMPETENCY
Kemampuan memahami fenomena gelombang Kemampuan memahami konsep dasar gelombang Kemampuan mengikuti perkembangan teknologi konsep dasar
gelombang
Ability to understand the phenomenon of wave; Ability to understand the basic concept of wave; Ability to follow the development of the basic concepts
of wave technology
POKOK BAHASAN/ SUBJECTS
Getaran Harmonis, Getaran Teredam, Getaran Paksa; Perambatan Gelombang 1 dimensi sampai 3 dimensi; Gelombang Elastik, Gelombang EM (pengantar gelombang EM) Refleksi dan Transmisi Gelombang, Interferensi Gelombang,
Modulasi Gelombang, SWR, Analisa Fourier; Praktikum : Kisi diffraksi, polarisasi cahaya, spektro-meter,
refraktometer, polarimeter, cincin Newton,
Harmonic vibration, damped vibration, Forcedvibration; One-dimensional wave propagation through 3-dimensional; Elastic Waves, EM waves (EM wavesintroduction); Reflection and Transmission of Waves, Interference Wave,
Wave Modulation, SWR, Fourier Analysis; Practical: Grid diffraction, polarization of light, gamma-meter,
refractometer, polarimeter, Newton's rings,
PUSTAKA UTAMA/ REFERENCES
1. Prasetio, L. dkk. “Diktat Gelombang”, Fisika, MIPA-ITS, Surabaya 2003
2. Crawford, F.S. ; “Waves”, Berkeley Physics Course, vol 3, Me Graw-Hill, 1968
3. Pain, I.G., “Vibration and Wave in Physics”, Cambrindge University Press, 87
4. Peny, G., “Fourier Series and Optical Transform and Technique in Contemporary Optics”, John Wiley & Sons, Canada, 1995.
MATA KULIAH/ COURSE TITLE
SF 091315: Medan Elektromagnetik SF 091315: Electromagnetics Field
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Credits: 4 Semester: V
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan hukum-hukum dasar medan elektromagnetik didalam hampa dan di dalam bahan. Mahasiswa dapat merumuskannya dalam bentuk integral maupun differensial, memahami sifat-sifat gelombang elektromagnetik dan pemakaiannya, serta mampu memcahkan persoalan-persoalan medan elektromagnetik.
Student can explain and understand the fundamental rules of electromagnetic fields in vacum and matter. Student can formulate it in integral an differential forms, unstand the property of electromagnetic waves and its applications. Student can solve electromagnetic problems
KOMPETENSI/ COMPETENCY
Kemampuan analisis medan elektronika magnet Kemampuan memiliki melakukan implementasi dengan konsep
dasar elektromagnetik The ability of electronic magnetic field analysis; Ability to have implemented with the basic concepts of
electromagnetic
POKOK BAHASAN/ SUBJECTS
Analisa vektor, Medan listrik, rotasi dan divergensi medan listrik
Hukum Gauss, Potensial dan energi listrik, persamaan Laplace, persamaan Poisson, Metode bayangan, ekspansi multi kutub, medan listrik didalam bahan, perpindahan listrik;
Medan magnet, rotasi dan divergensi medan magnet, potensial vektor dan skalar magnetik, medan magnet dalam bahan, induksi magnetik, hukum Faraday, Persamaan Maxwell;
Hukum-hukum konservasi, persamaan kontinuitas, momentum, momentum sudut;
Gelombang Elektromagnetik di dalam vakum dan didalam bahan, Absorbsi dan dispersi, pemandu gelombang;
Vector Analysis, Electrostaties, electric field, divergence and cure of electric fields.
Gauss law, electric potential, work and energy, Laplace’s equation, Poissoin’s equation, The Method of images, electric fields inmatter.
Magnet staties, divergence and cure of magnetic field, magnetic field in matter, electromagnetic induction, Faraday’s law, Maxwell’s equation,
The laws of conservation, the continuity equation, momentum, angular momentum.
Electromagnetic in vacuum and in matter, Absorption and
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dispersion, wave guide.
PUSTAKA UTAMA/ REFERENCES
1. Griffith, D.J., “Introduction to Electrodynamics”, 2nd, Prentice Hall, 1986
2. Nayfeh, M.H. & M.K Brussel, “Electricity and Magnetis’m, John Wiley & Sons, 1983
3. Reitz, J.R., F.J Milford, & R.W. Christy, “Foundations of Electromagnetic Theory”, 2nd, Addison Wesley, 1993
4. Wangsness, R.K.,“Electromagnetic Fields”, John Wiley & Sons, 1986.
MATA KULIAH/ COURSE TITLE
SF 091316: Fisika Laboratorium SF 091316: Laboratory Physics Credits: 2 Semester: V
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu melakukan praktikum mandiri di laboratorium dengan merancang dan mempersiapkan kegiatan praktikum di laboratorium fisika lanjut.
Students are able to conduct independent lab in the lab by designing and preparing for practical activities in the advanced physics laboratory.
KOMPETENSI/ COMPETENCY
Memiliki kemampuan skill di laboratorium untuk peralatan elektronika, fisika modern dan optoelektronika
Strong skills in the laboratory for electronics equipment, modern physics and optoelectronics
POKOK BAHASAN/ SUBJECTS
Perancangan dan pelaksanaan kegiatan praktikum di laboratorium , kelompok minat Fisika Bahan (laboratorium Fisika Zat Padat, laboratorium Semikonduktor, laboratorium Spektroskopi);
Optika (laboratorium Optika dan optoelektronika), Instrumentasi (laboratorium akustik, laboratorium elektronika);
Fisika Teori (laboratorium fisika teori dan filsafat alam).
Design and implementation of practical activitiesin the laboratory, interest groups Materials Physics (Physics Laboratory of Solid Substances, Laboratory Semiconductor, Spectroscopy Laboratory);
Optics (Optics and optoelectronics laboratory),instrumentation (acoustic lab, electronics lab);
Physics Theory (physics laboratory theory andnatural philosophy).
PUSTAKA UTAMA/ REFERENCES
1. Petunjuk Praktikum Fisika madya
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MATA KULIAH/ COURSE TITLE
SF 091317: Fisika Kuantum SF 091317: Quantum Physics Credits: 4 Semester: V
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menerangkan prinsip-prinsip kuantum, memahami sistem kuantum sederhana, metoda perumusan dan solusinya untuk memecahkan persoalan atomik dan molekular.
Students can describe quantum principles, understand some simple quantum systems, formulation and solution of atomic and molecular problems
KOMPETENSI/ COMPETENCY
Kemampuan memecahkan masalah tentang permasalahan atomik dan molekuler
Kemampuan menerapkan fisika kuantum dalam berbagai bidang Kemampuan mengikuti perkembangan teknologi yang
menggunakan konsep dasar kuantum Ability to solve problems concerning the atomicand molecular
problems; Ability to apply quantum physics in different fields; Ability to follow developments in technology that uses basic
concepts of quantum;
POKOK BAHASAN/ SUBJECTS
Lompatan dari mekanika klasik ke teori kuantum, paket gelombang, prinsip ketaktentuan, persamaan Schroedinger, fungsi dan nilai eigen, gerak partikel dalam potensial satu dimensi, metoda operator, gerak partikel dalam ruang tiga dimensi, momentum angular, persamaan radial, polar dan azimutal, atom hidrogen, interaksi elektron dengan medan elektromagnetik, metoda matriks, spin, penjumlahan momentum angular, teori gangguan bebas waktu, teori gangguan bergantung waktu, atom hidrogen nyata, atom helium, molekul, radiasi atom dan teori hamburan.
Transition from classical to quantum theory, wave packets, uncertainty principle, Schrodinger equation, eigen functions and eigen values, particle in one dimensional potential, three dimensional systems: angular momentum, radial potential and hydrogen atom, operator method, spin and the addition of angular momentums, time independent perturbation theory.
PUSTAKA UTAMA/ REFERENCES
1. S. Gasiorowicz, “Quantum Physics”, 3rd Ed., Wiley Internat. Ed.,USA, 2003.
2. Libofs, R.L,“Introductory Quantum Mechanics” Wesley Publishing Company, 2nd.th, New York, 1992
3. A. Purwanto, “Fisika Kuantum”, Gava Media, Yogyakarta, 2006.
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MATA KULIAH/ COURSE TITLE
SF 091206: Fisika Komputasi SF 091206: Computation Physics Credits: 4 Semester: VI
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menggunakan cara-cara numerik untuk menyelesaikan persoalan-persoalan fisika melalui pemrograman komputer.
Students can use numerical methods to solving physics problems through computer programming.
KOMPETENSI/ COMPETENCY
Kemampuan pemrograman numerik persoalan fisika Kemampuan mengikuti perkembangan teknologi komputasi fisika;
The ability of numerical programming problems physics; Ability to follow the development of physics computing technology
POKOK BAHASAN/ SUBJECTS
Estimasi kesalahan empirik, pencocokan kurva (fitting), Metode kuadrat terkecil, aplikasi persamaan diferensial biasa
(bandul terpaksa, persamaan Schrodinger), Aplikasi matriks (masalah nilai eigen, struktur elektronik dalam
atom, sistem banyak benda), analisis spektra, Aplikasi persamaan diferensial parsial, dinamika molekuler, sistem
kontinyu, Pengantar simulasi Monte-Carlo.
Estimation of the empirical error, curve-fitting (fitting), Method of least squares, the application ofordinary differential
equations (forced pendulum,Schrodinger equation), The application matrix (eigen value problem, the electronic
structure of atoms, the many objects),spectral analysis, The application of partial differential equations, molecular dyna-
mics, continuous system, Introduction to Monte-Carlo simulation.
PUSTAKA UTAMA/ REFERENCES
1. Pang, T.,”An Introduction to Computational Physics”, Cambridge University Press, 2006.
2. Landau, R.H. dan Paez, M.J.,”Computaional Physics, Problem Solving with Computers”, John-Wiley & Sons, 1997.
3. Ehrlich, R.,“Physics & Computers: Problems, Simulations & Data Analysis”, Haughton Mifflin Company, 1973.
4. Dom & McCrachen,“Numerical Methods with Fortran IV Case Studies”, John Wiley & Sons, 1972.
5. Hornan,S.E.,“Computational Physics”, Addison Vesley, 1986
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MATA KULIAH/ COURSE TITLE
SF 091318: Fisika Statistik SF 091318: Statistics Physics Credits: 3 Semester: VI
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan fenomena termodinamika (makroskopis) dari tinjauan mikroskopis melalui model-model distribusi statistik Maxwell-Boltzmann, Bose-Einstein dan Fermi-Dirac.
Students can describe thermodynamical phenomena from microscopical point of view using Maxwell-Boltzmann, Bose-Einstein and Fermi-Dirac distribution.
KOMPETENSI/ COMPETENCY
Kemampuan memahami masalah termodinamika secara lebih mendalam
Kemampuan analisis masalah probabilistik distribusi dalam termodinamika
Kemampuan mengikuti perkembangan teknologi
Ability to understand issues in more depth thermodynamics; Ability to analyze problems in thermodynamics probabilistic
distribution; Ability to follow developments in technology
POKOK BAHASAN/ SUBJECTS
Konsep dasar probabilitas dan distribusi binomial, karakteristik sistem termodinamika (makrokroskopik) dari sudut pandang mikroskopik; Lingkup fisika statistik, ensembel dan ruang fase, statistik Maxwell-Boltzmann, fungsi partisi Boltzmann, paradoks Gibbs; statistik Bose-Einstein, gas foton, gas fonon, statistik Fermi-Dirac, gas elektron, paramagnetisme Pauli, pancaran termionik.
Basic concepts of probability and binomial distributions, specifications of microscopic states, characteristics of thermodynamical systems from microscopic point of view, ensemble and phase space, entropy and temperature, partition function, Maxwell-Boltzmann statistics and Gibbs paradox, Bose-Einstein statistics: photon dan phonon gas, Fermi-Dirac statistics: electron gas, Pauli paramagnetism, thermionic emission.
PUSTAKA UTAMA/
1. Purwanto, A.(2007).’Fisika Statistik’, GavaMedia, Yogyakarta. 2. Greiner, W., Neise, L. dan Stocker H..(1997).’Thermodynamics and
Statistical Mechanics’, Springer, Berlin.
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REFERENCES 3. Pointon, A.J.,“An Introduction to Statistical Physics”, Longman Grup Ltd., London, 1978.
4. Sears. F.W. & G.L. Salinger,“Thermodynamic, Kinetic Theory and Statistical Thermodynamics”, Addison Wesley, 1975.
5. Rei, F., “Statistical Physics”, Berkeley Physics Course, MC Graw-Hill. 1978
MATA KULIAH/ COURSE TITLE
IG 091306: Bahasa Indonesia IG 091306: Indonesian Credits: 2 Semester: VI
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa memperoleh kemahiran dalam menggunakan bahasa Indonesia untuk menguasai, menerapkan dan mengembangkan ilmu pengetahuan, teknologi dan seni dengan penuh rasa tanggung jawab sebagai warga negara yang berkepribadian mulia.
Students gain skills to use Indonesian Language to acquire, apply and develop science, technology and art accountably as noble citizens.
KOMPETENSI/ COMPETENCY
Mahasiswa mampu menggunakan bahasa Indonesia untuk mengungkapkan fakta, gagasan, metode, konsep, dan prinsip-prinsip ilmiah ke dalam karya ilmiah yang berkualitas (memenuhi syarat lugas, logis, sistematis, cendekia, efektif, efisien, dan menarik).
Mahasiswa mampu memanfaatkan kemahiran bahasa Indonesia untuk mengembangkan diri sepanjang hidupnya.
Students are able to use Indonesian Language to express fact, ideas, method, concept and scientific principles in a quality scientific work (simple, logic, systematic, educated, effective, efficient, and interesting).
Students are able to make use of their Indonesian Language skills for their own longlife self-development.
POKOK BAHASAN/ SUBJECTS
Pendahuluan: Pengantar, bahasa Indonesia ilmiah, analisis kesenjangan dalam karya ilmiah (gap analysis).
Komposisi Bahasa: komposisi kalimat efektif, syarat-syarat keefektifan, paragraf dan teknik pengembangan paragraf (komposisi paragraf).
Menulis Akademik: menulis pendahuluan, metodologi, tinjauan pustaka dan/atau analisis/ pembahasan, serta daftar pustaka.
Format penulisan karya ilmiah: proposal, makalah, dan atau laporan ilmiah.
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Konsep Presentasi: teknik presentasi, penyiapan materi, kejelasan alur pikir, penyampaian materi. sikap berpresentasi, ringkasan dan jawaban berpresentasi.
Introduction: Indonesian Language for scientific purposes,
Language gap analysis of scientific article. Language Composition: Effective sentence, paragraph and
paragraph composition Academic Writing: Introduction, methodology, literature
review/analysis/discussion, bibliography. Scientific Writing: Proposal, Article, Scientific writing report. Presentation: Presentation techniques, outlining, delivery,
attitude, summary, question-answer session.
PUSTAKA UTAMA/ REFERENCES
1. Alwi, Hasan. 2000. Tata Bahasa Baku Bahasa Indonesia (Indonesian Language Grammar). Jakarta: Balai Pustaka
2. Arifin, E. Zaenal. 1987. Penulisan Karangan Ilmiah dengan Bahasa Indionesia yang Benar (Writing Scientific Article Uisng Correct Indonesian Languge). Jakarta: Mediyatama Sarana Perkasa.
3. Brotowidjojo, Mukayat D. 1995. Penulisan Karangan Ilmiah (Writing Scientific Article). Jakarta: Akademika Presindo.
4. Departemen Pendidikan dan Kebudayaan. 1998. Pedoman Ejaan Bahasa Indonesia yang Disempurnakan (Guidance of Official Indonesian Spelling System). Jakarta: Balai Pustaka
5. Departemen Pendidikan dan Kebudayaan.1998. Pedoman Umum Pembentukan Istilah (General Guidance of Terminology Formation). Jakarta: Balai Pustaka.
MATA KULIAH/ COURSE TITLE
SF 091207: Seminar SF 091207: Seminar Credits: 2 Semester: VII
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu membaca dan meringkas beberapa artikel jurnal ilmiah berbahasa Inggris, selanjutnya menyusun ringkasan dan kritik atas artikel tertentu serta mempresentasikannya di depan kelas.
Students are able to read and summarize several scientific journal articles in English, then compile a summary and critique of certain articles andpresented it in front of the class.
KOMPETENSI/ Mahasiswa mampu melakukan presentasi, menyampaikan hasil
penelitian, dan menyapaikan pendapat.
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COMPETENCY Students are able to make presentations, deliver results, and express opinion.
POKOK BAHASAN/ SUBJECTS
Membaca dan meringkas artikel jurnal ilmiah berbahasa Inggris Menyusun ringkasan dan kritik atas dua buah artikel ilmiah Menyajikan hasil kerjanya di depan kelas menggunakan
multimedia.
Read and summarize the scientific journal articles in English; Develop a summary and critique of two scientific articles; Presenting their work in front of the class using multimedia.
PUSTAKA UTAMA/ REFERENCES
1. Academic writing and publishing, J. Hartley, Taylor and Francis e-Library, 2008.
2. Writing for science and engineering, H. Sylin-Roberts, Butterworth -Heinemann 2002.
3. Measurement Uncertainties in Science and Technology, M. Grabe, Springer-Verlag Berlin Heidelberg, 2005
MATA KULIAH/ COURSE TITLE
SF 091319: Fisika Zat Padat SF 091319: Solid State Physics Credits: 4 Semester: VII
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan dan menerapkan prinsip-prinsip fisika dalam memahami struktur dan sifat-sifat zat padat serta penerapannya.
Students are able to explain and apply the principles 0f physics in understanding the structureand properties of solids and its appli-cation.
KOMPETENSI/ COMPETENCY
Mahasiswa dapat memahami struktur kristal, difraksi dalam kristal, vibrasi kisi kristal
Mahasiswa dapat memahami elektro dalam logam dan struktur elektronik zat padat
Mahasiswa dapat memahami semikonduktivitas dan piranti sekonduktor
Mahasiswa dapat memahami sifat optik dan magnetik zat padat Mahasiswa dapat memahami superkonduktivitas dan material
nano.
Students can understand the crystal structure, diffraction in the crystal, the crystal lattice vibrations;
Students can understand electrical and electronic structure in metallic solids;
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Students can understand the semiconductivity and semiconduc-tor devices;
Students can understand the optical and magnetic properties of solids;
Students can understand superconductivity andnano materials.
POKOK BAHASAN/ SUBJECTS
Struktur kristal (keadaan kristalin, kisi Bravais, arah dan bidang kristal) dan Gaya antar atom; Difraksi sinar-x (Hk bragg, hambuaran atom dan kristal, kisi balik, penerapan sinar-x) difraksi neutron dan elektron; Kisi vibrasi (kapasitas panas model Einstein dan debye, kapasitas panas, konduktivitas panas, hamburan sinar-x, neutron, dan cahaya oleh fonon).
Elektron dalam logam (elektron konduksi, konduktivitas dan resistivitas listrik, permukaan Fermi, konduktivitas panas dalam logam); struktur elektronik zat padat (struktur pita zat padat, zone Brillouin, pita energi dan penerapannya)
Semikonduktivitas (bahan semikonduktor, semikonduktor intrinsik dan ekstrinsik, semikon- duktor tipe-p dan tipe-n, gejala difusi), piranti semikonduktor (sambungan p-n, transistor sambungan, jenis-jenis dioda, rangkaian terpadu)
Dielektrika dan sifat optik zat padat (perumusan dielektrika dan tetapan dielektrik, polarisasi dan polarisabilitas, pizoelektrik, ferroelektrik), Magnetisme dan Resonansi magnetik (gejala kemagnetan, suseptibilitas magnet, klasifikasi bahan magnet, resonansi paramagneti dan resonansi magnetik inti)
Superkonduktivitas (gejala superkonduktivitas dan super- konduktor, konduksi ion, semi-konduktor amorfus, kristal cair), material nano (.................)
Crystal structure (crystalline state, Bravais lattice,the direction and the crystal field) and style between atoms; x-ray diffraction (Hk Bragg, scattering atoms and crystals, lattice back, the appli-cation of x-rays), neutron and electron diffraction, lattice vibra-tions (capacity Einstein and Debye model of heat, heat capacity, thermal conductivity, x-ray scattering, neutron, and light by phonons).
Electrons in the metal (electron conduction, conductivity and elec-trical resistivity, Fermisurface, thermal conductivity in metals); electronicstructure of solids (band structure of solids, Brillouin zones, energy bands and their application)
Semi-conductivity (semiconductor materials, intrinsic and extrinsic semiconductors, semiconconductor p-type and n-type, diffusion phenomena), semiconductor devices (pn junction, the transistor connection, the types of diodes, integrated circuits)
Dielectric and optical properties of solids (the formulation of dielectric and dielectric constant, polarization and polarization-mobility, pizoelektrik, ferroelectric), Magnetism and Magnetic
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Resonance (symptoms of magnetism, magnetic susceptibility, classification of magnetic materials, paramagnetic resonance and nuclear magnetic resonance)
Superconductivity (phenomenon of superconductivity and super-conductors, ionconduction, amorphous semi-conductors, liquid crystals), nano materials.
PUSTAKA UTAMA/ REFERENCES
1. M.A Omar, “Elementary Solid State Physics”, Addison Wesley, New York, 1975
2. S.W Winata, Z Arifin, “Fisika Zat Padat I” Diktat Kuliah Jurusan Fisika FMIPA-ITS, Surabaya, 2001
3. S.W Winata, Darminto, dan Z Arifin, “Fisika Zat Padat II” Diktat Kuliah Jurusan Fisika FMIPA-ITS, Surabaya, 2002
4. F Blackmore, “Solid State Physics” John Willey and Sons, New York, 1976
5. Kittel, “Introduction Solid State Physics” John Willey and Sons, New York, 1991
6. J.R Christman, “Fundamentals of Solid State Physics” John Wiley and Sons, New York, 1988
MATA KULIAH/ COURSE TITLE
SF 091320: Fisika Inti SF 091320: Nuclear Physics Credits: 4 Semester: VII
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan sifat-sifat inti , memahami interaksi inti yang dapat terjadi dan memahami struktur inti.
Students are able to explain the properties of the core, the core of understanding interactions that can occur and understand the core structure
KOMPETENSI/ COMPETENCY
Memiliki kemampuan memahami tentang fisika inti Kemampuan memahami penetahuan radiioaktif Kemampuan mengikuti perkembangan teknologi nuklir
Strong understanding of core physics; Ability to understand penetahuan radiioaktif; Ability to follow the development of nuclear technology
POKOK BAHASAN/ SUBJECTS
Gejala radioaktivitas, peluruhan radioaktif, massa inti, energi ikat inti, model dan struktur inti, spin dan momen magnetik inti, model reaksi inti, fisi dan fusi, reaksi berantai, reaktor dan jenisnya, interaksi radiasi dan materi, deteksi radiasi, peluruhan alfa, beta
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dan gamma, radioisotop dan aplikasinya.
Symptoms of radioactivity, radioactive decay, the core mass, core binding energy, and model corestructure, spin and magnetic moment of the core, the model of nuclear reaction, fission and fusion, chain reaction, and reactor type, the interaction ofradiation and matter, radiation detection, alphadecay , beta and gamma, radioisotopes and their applications.
PUSTAKA UTAMA/ REFERENCES
1. Krane, K.S., “Introductory Nuclear Physics”, John Wiley & Sons, New York, 1988.
2. Eisberg, R., & R. Resnick, “Quantum Physics of Atoms, Molecules, Solids, Nuclei, and Particles”, John Wiley & Sons, New York, 2nd Ed., 1985.
3. Arya, A.P., “Fundamental Nuclear Physics”, John Wiley and Sons, New York, 1983
4. Wong,S.S.M., “Introductory Nuclear Physics”, PTR Prentice Hall, Englewood, New Jersey, 1990
MATA KULIAH/ COURSE TITLE
SF 091317: Pengantar Technopreneur SF 091317: Introduction to Technopreneur Credits: 2 Semester: VII
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Merubah mindset mahasiswa dari job seeker menjadi job creator serta membekali mahasiswa dengan kemampuan untuk menyusun sebuah rencana/proposal bisnis (Business Plan)
Students are able to change their mindset from being job seekers to being job creators and are able to make a business plan
KOMPETENSI/ COMPETENCY
Memiliki mindset sebagai seorang teknopre-neurship Mampu menyusun Rencana/Proposal Bisnis (Business Plan) yang
baik.
Having technopreneur mindset Being able to make business plan well
POKOK BAHASAN/ SUBJECTS
Pendahuluan (Defininsi, jenis, orientasi, spirit, dan perilaku enterpreneur dalam menghadapi resiko, Kecerdasan emosional menuju kesuksesan, Perbedaan enterpreneur, teknopreneur, dan usaha kecil).
Perubahan Mindset (Pola pikir positip, Mengubah perspektif dengan game, Memunculkan alternatif solusi).
Sukses Story membangun karir Teknopreneurship (Alasan memilih
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bidang usaha, Keuntungan sebagai teknopreneurship,Soft skill faktor yang dibutuhkan, Bagaimana membangun kompetensi dan jaringan).
Peluang Usaha (Teknik-teknik mengidentifikasi peluang usaha, Kendala dan resiko produk atau usaha baru, Identifikasi jenis usaha yang sedang trend).
Pemasaran Usaha (Proses pembentukan strategi pemasaran (STP dan 4P), Identifikasi persaingan, Menerobos kendala persaingan).
Introduction (Definition,types, orientation, spirit, and attitudes of
enterpreneur in dealing with risks.Emosional quotient towards success, The differencebetween enterpreneur, technopreneur, and small business).
Changing Mindset (Positive mindset, Changing perspective through game, Generating alternative solution)
Success Story: Developing Technopreneurship Career ; Reason for choosing business career, Advantages of being technopreneurship, Soft skill factor, How to develop competencies and network.
Business Opportunities ; Business opportunity identification techniques, Problems and risks of new product or new business, Identifying booming business.
Marketing ; Process of marketing strategy (STP and 4P), Identifying competition, Break through competition problems
PUSTAKA UTAMA/ REFERENCES
1. Tim Teknoprenersip ITS, Diktat “Teknoprenersip” (Technopreneurship, textbook )
2. Yoseph Murphi, Membangkitkan Kekuatan Bawah Sadar (Arousing Subconscious Power) , Pioner Jaya, 2002
3. Carol Draeck, Change Your Mindset Change Your Life, Serambi, 2006
MATA KULIAH/ COURSE TITLE
SF 091321: Tugas Akhir SF 091321: Final Project Credits: 6 Semester: VIII
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Melatih mahasiswa melakukan penelitian sesuai ilmu yang telah dimiliki dan selanjutnya melaporkan hasil penelitiannya baik secara tertulis maupun dengan cara presentasi.
Train students to do research based on science that has been learned and subsequently reported the findings either in writing or by presentation.
KOMPETENSI/ Mampu menyusun Rencana/Proposal penelitian yang baik
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COMPETENCY Memiliki kemampuan melaksanakan penelitian Memiliki kemampuan melaporkan hasil penelitian secara
sistematik.
Able to develop proposal good research; Have the ability to do research; Have the ability to report the results of systematic research.
POKOK BAHASAN/ SUBJECTS
Menyusun proposal penelitian terprogram Melaksanakan penelitian berdasarkan proposal yang disusun Menyusun laporan berupa buku tugas akhir Mempresentasikan hasil penelitiannya
Develop proposal programmed; Carry out research based on proposals prepared; Prepare report form book; Presenting research as final projrct book.
PUSTAKA UTAMA/ REFERENCES
1. Academic writing and publishing, J. Hartley, Taylor and Francis e-Library, 2008.
2. Writing for science and engineering, H. Sylin-Roberts, Butterworth-Heinemann 2002.
MATA KULIAH/ COURSE TITLE
SG091205: BAHASA INGGRIS LANJUT SG091205: ADVANCED ENGLISH Credits: 2 Semester: V/VI/VII/VIII
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa akan dapat memahami percakapan pendek, percakapan panjang dan monolog pada bagian LISTENING COMPREHENSION Part A, B, and C, penggunaan tata bahasa Inggris dan memilih jawaban yang tepat pada bagian STRUCTURE AND WRITTEN EXPRESSION, dan bacaan-bacaan dalam Paper-based TOEFL pada bagian READING COMPREHENSION dan memilih jawaban yang tepat dalam Paper-based TOEFL.
The students are going to be able to understand short
conversation, longer conversation, and monolog, at LISTENING COMPREHENSION Part A, B, and C, the usage of English structure at STRUCTURE AND WRITTEN EXPRESSION , and texts at READING COMPREHENSION and select the most appropriate answer in paper-based TOEFL
KOMPETENSI/ Mahasiswa akan dapat memahami percakapan pendek,
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COMPETENCY percakapan panjang dan monolog dan memilih jawaban yang tepat dalam Paper-based TOEFL bagian LISTENING COMPREHENSION Part A, B, and C
Mahasiswa akan dapat memahami penggunaan tata bahasa Inggris dan memilih jawaban yang tepat dalam Paper-based TOEFL bagian STRUCTURE AND WRITTEN EXPRESSION
Mahasiswa akan dapat memahami bacaan dan memilih jawaban yang tepat dalam Paper-based TOEFL bagian READING COMPREHENSION
The students are going to be able to understand short
conversation, longer conversation, and monolog, at LISTENING COMPREHENSION Part A, B, and C and select the most appropriate answer in paper-based TOEFL
The students are going to be able to understand the usage of English structure at STRUCTURE AND WRITTEN EXPRESSION and select the most appropriate answer in paper-based TOEFL
The students are going to be able to understand texts at READING COMPREHENSION and select the most appropriate answer in paper-based TOEFL
POKOK BAHASAN/ SUBJECTS
Percakapan pendek, percakapan panjang dan monolog dalam Paper-based TOEFL bagian LISTENING COMPREHENSION Part A, B, and C
Tata bahasa Inggris dalam Paper-based TOEFL bagian STRUCTURE AND WRITTEN EXPRESSION
Bacaan-bacaan dalam Paper-based TOEFL bagian READING COMPREHENSION
Short conversation, longer conversation, and monolog, at
LISTENING COMPREHENSION Part A, B, and C in paper-based TOEFL
The usage of English structure at STRUCTURE AND WRITTEN EXPRESSION in paper-based TOEFL
Texts at READING COMPREHENSION n paper-based TOEFL
PUSTAKA UTAMA/ REFERENCES
1. Phillips,,D.,Longman Preparation Course for the TOEFL Test,. New York, Pearson Education 2003.
2. Phillips,,D., Longman Preparation Course for the TOEFL Test, Introductory Course ,New York Pearson Education, 2004.
3. Mahnke,M.K. and Duffy, C.B.TOEFL Preparation Course ,New Jersey, Macmillan Heineman ELT 2006
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MATA KULIAH/ COURSE TITLE
SF 091209: Fisika Keramik SF 091209: Physics of Ceramics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat menjelaskan struktur dan sifat bahan keramik serta contoh penggunaannya.
Students can explain the structure and properties of ceramic materials as well as examples of its use.
KOMPETENSI/ COMPETENCY
Mahasiswa dapat mendiskripsikan struktur dan cacat bahan keramik.
Mahasiswa dapat peran cacat terhadap sifat bahan. Mahasiswa dapat memahami sifat keramik utamanya
konduksi, permitivitas, kekerasan, keuletan. Mahasiswa dapat mengerti proses pembuatan keramik.
Students can describe th e structur e and defects of ceramic material.
Students may role of defects on material properties. Students can understand the nature of its mainconduction
ceramics, permittivity, hardness, ductility. Students can understand the process of making ceramics.
POKOK BAHASAN/ SUBJECTS
Definisi dan ruang lingkup kajian bahan keramik, struktur keramik, cacat dalam keramik, gejala difusi, konduksi listrik, diagram fasa, tranformasi fasa, proses keramik, reaksi padat, kalsinasi, sintering, fracture, kriteria Grifith, creep, fatigue, dielektrik.
Definition and scope of the study of ceramicmaterials, ceramic structure, defects in ceramics, diffusion phenomena, electrical conductivity, phase diagram, phase transformation, the process ofceramics, solid reaction, calcination, sintering, fracture, Grifith criteria, creep, fatigue, dielectric
PUSTAKA UTAMA/ REFERENCES
1. M.W. Barsoum, “Fundamental of Ceramics”, McGraw-Hill, New York, 1997.
2. Suasmoro, "Fisika Keramik", Jurusan Fisika MIPA ITS, Surabaya, 1999.
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MATA KULIAH/ COURSE TITLE
SF 091211: Fisika Logam SF 091211: Physics of Metals Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat memahami sifat fisika, kimia dan mekanik berbagai macam logam paduan, pengembangan struktur mikro dan sifat mekaniknya, perlakuan panas logam paduan, fabrikasi logam paduan dan proses korosi logam paduan.
Students can understand the nature of physics, chemistry and mechanical variety of metal alloys, the development of micro-structure and mechanical properties, heat treatment of metal alloys, metalalloy fabrication and metal alloy corrosion process.
KOMPETENSI/ COMPETENCY
Mahasiswa dapat memahami klasifikasi bahan, struktur atom dan ikatan antar atom;
Mahasiswa dapat memahami sifat mekanik logam, dislokasi dan mekanisme penguatan logam;
Mahasiswa dapat memahami konsep dasar diagram fasa dan transformasi fasa;
Mahasiswa dapat memahami perlakuan panas logam paduan, fabrikasi logam paduan, korosi dan penurunan mutu logam dan paduannya;
Students can understand the classification of materials, atomic structure and bonding between atoms;
Students can understand the mechanical properties of metals, dislocations and strengthening mechanisms of metals;
Students can understand the basic concept of phase diagrams and phase transformations;
Students can understand the heat treatment of metal alloys, metal alloy fabrication, corrosion and degradation of metals and alloys;
Sifat-sifat bahan (sifat mekanik, sifat termal dan klasifikasi bahan), struktur atom dan ikatan antar atom (atom dan ion, ikatan primer, molekul, ikatan sekunder, jarak antar atom, bilangan koordinasi dan jenis bahan
Sifat mekanik logam (deformasi elastis: perilaku tegangan-regangan, sifat elastis bahan; deformasi plastis bahan: tegangan-regangan sesungguhnya dan teknik, kegagalan mekanik, kekerasan dan pemuluran), dislokasi dan deformasi plastis (karakteristik dislokasi, sistem sesar, sesar pada kristal tunggal, deformasi plastis bahan polikristalin), mekanisme penguatan dalam logam (pengecilan ukuran butir, pengerasan larutan padat, pengerasan regangan), Praktikum (Uji kekerasan skala Vickers)
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POKOK BAHASAN/ SUBJECTS
Kesetimbangan diagram fasa (interpretasi diagram fasa, diagram kesetimbangan yang mempunyai fasa antara atau campuran), Diagram fasa sistem besi-karbon (diagram fasa besi-besi karbida, pengembangan struktur mikro paduan besi-karbon, pengaruh unsur-unsur dalam logam paduan); Transformasi fasa (konsep dasar, kinetika reaksi fasa padat, pemulihan, rekristalisasi, dan pertumbuhan butir), Transformasi multifasa (diagram TTT, diagram CCT, struktur mikro dan sifat mekanik, bainit, martensit, dan martensit temper)
Perlakuan panas logam paduan (proses aniling: proses aniling, pembebasan tegangan, aniling paduan ferrous; perlakuan panas baja: hardenability, pengaruh medium quenching, ukuran dan geometri spesimen; pengendapan pengerasan: perlakuan panas, mekanisme pengerasan); Praktikum (perlakuan panas logam paduan, uji kekerasan dan mikrografi), fabrikasi logam paduan (pembentukan logam, penuangan), Paduan ferrous (baja, besi tuang), paduan non-ferrous (tembaga, aluminium, magnesium, titanium, dan paduannya; baja tahan api, paduan super, logam mulia), korosi pada logam dan paduannya (tinjauan elektrokimia, laju korosi, pasivasi, pengaruh lingkungan, bentuk-bentuk korosi, lingkungan korosif dan penghambatan korosi).
material properties (mechanical properties, thermal properties and classification of material), the structure of atoms and bonds between atoms (atoms and ions, bonding primer, molecules, secondary bonding, the distance between atoms, coordination number and types of materials;
Mechanical properties of metals (elastic deformation: stress-strain behavior, elastic properties of materials; material plastic defor-mation: stress-true strain and engineering, mechanical failure, hardness and elongation), dislocation and plastic deformation (dislocation characteristics, system faults, faults in the crystal single, plastic deformation of polycrystalline), strengthening mechanisms in metals (grain size reduction, solid solution hardening, strain hardening), Practicum (Test Vickers hardness scale)
Equilibrium phase diagram (phase diagram interpretation, which has a phase equilibrium diagram between or mix), the phase diagram of iron-carbon system (phase diagram of iron-ironcarbide, iron alloy development of micro-structure of carbon, the influence of elements in metalalloys); Transformation phase (basic concepts, solid phase reaction kinetics, recovery, recrystallization, and grain growth), multiphase Transformation (TTT diagram, CCT diagram,microstructure and mechanical proper-ties, bainite, martensite, and tempered martensite)
Alloy metal heat treatment (annealing process:the process of
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annealing, stress release, annealingferrous alloy, heat treatment of steel: hardenability,the influence of quenching medium, size and geometry of the specimen; precipitation hardening: heat treatment, hardening mechanism); Practicum(heat treatment of metal alloys , hardness test and micrography), fabricated metal alloys (metalforming, casting), ferrous alloys (steel, cast iron), non-ferrous alloys (copper, aluminum, magnesium, titanium, and alloys, refractory steel, super alloys, metal noble), corrosion on metals and alloys (review electrochemistry, corrosion rate, passivation, environmental influences, forms of corrosion, corrosive environments and corrosion inhibition)
PUSTAKA UTAMA/ REFERENCES
1. W.D Callister, “Materials Science and Enggineering An Introduction” John Willeyand Sons, New York, 1988
2. Sriati Djaprie (Terj: Lawrence H Van Vlack), “Ilmu dan Teknologi Bahan” Edisi ke lima, Erlangga, Jakarta, 1989
3. Zaenal Arifin, “Fisika Logam” Diktat Kuliah Jurusan Fisika-FMIPA-ITS, 2002
MATA KULIAH/ COURSE TITLE
SF 091213: Korosi SF 091213: Corrosion Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat memahami prinsip korosi, mekanisme korosi, metode penghambatan korosi, dan paduan-paduan tahan korosi, serta aplikasinya dalam kehidupan sehari-hari.
Students can understand the principles of corrosion, corrosion mechanism, corrosioninhibition method, and alloys corrosion-resistant alloys, and its application in everyday life
KOMPETENSI/ COMPETENCY
Mahasiswa dapat memahami prinsip-prinsip korosi, Korosi di lingkungan air
Mahasiswa dapat memahami bentuk-bentuk korosi Mahasiswa dapat memahami prinsip-prinsip dasar pengendalian
korosi Mahasiswa dapat memahami sifat-sifat korosi beberapa bahan
logam, korosi pada temperatur tinggi
Students can understand the principles of corrosion, corrosion in water environment;
Students can understand the forms of corrosion; Students can understand the basic principles of corrosion control; Students can understand the properties of somemetal corrosion,
corrosion at high temperatures;
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POKOK BAHASAN/ SUBJECTS
Korosi dan peradabannya (aspek keuangan korosi dan implikasi sosialnya), Prinsip korosi (aspek elektrokimia, pengaruh lingkungan, aspek metalurggi dan lainya), Korosi dalam lingkungan air (termodinamika korosi, potensial elektroda, potensial sel, potensial campuran, polarisasi, diagran E/pH atau Pourbaix)
Bentuk-bentuk korosi (korosi: merata, galvanik, selektif, celah, sumuran, filiform, erosi, antar butir, retak tegang, biokorosi, atom hidrogen), Praktikum (E/pH & bentuk korosi)
Pengendalian korosi melalui perancangan (perancangan struktur, hindarkan sel galvanik, hindarkan sel aerasi deferensil, sistem tangki dan pipa, korosi arus liar), Pengendalian korosi melalui pengubahan lingkungan (korosi udara dan pengendaliannya, korosi dalam lingkungan air dan pengendaliannya), Pengendalian korosi dengan lapisan penghalang (pelapisan dengan cat, plastik, beton, logam), Proteksi katodik (Metode anoda tumbal, Metode arus terpasang)
Sifat korosi beberapa bahan logam (Baja karbon, baja nirkarat, besi tuang, aluminium dan paduannya, tembaga dan paduannya, titanium,nikel dan paduannya), Korosi pada temperatur tinggi (oksida logam,mekanisme pertumbuhan selaput oksida, oksida pada paduan), Praktikum (Perlakuan panas logam dan kaitannya dengan korosi)
Corrosion and its civilization (the financialaspects of corrosion and its social implications), Principles of corrosion (electrochemical aspects, environmental influences, and other aspects of metalurggi), Corrosion in water environment (thermodynamics corrosion, electrode potential, cell potential, potential mix, polari-zation, diagran E/ pH or Pourbaix);
The forms of corrosion (corrosion: uniform,galvanic, selective, cracks, pitting, filiform, erosion, inter-grain, cracking, bio-corrosion, hydrogen atom), Practical (E / pH & form of corrosion)
Corrosion Control through a design (structural design, avoid galvanic cell, the cell avoiddeferensil aeration, tank and pipeline systems, corrosion wild currents), Control of corrosion by modi-fying the environment (air and corrosioncontrol, corrosion in water environment and its control), Control of corrosion by barrier layer (coating with paint, plastic, concrete, metal), cathodic protection (sacrificial anode method, flow method is attached)
The nature of corrosion of some metallicmaterials (carbon steel, stainless steel, cast iron, aluminum and its alloys, copper and its alloys, titanium, nickel and alloys), Corrosion at high temperatures (metal oxide, oxide film growth mechanism, the oxide on the alloy), Practical (heattreatment of metals and its relation with
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corrosion)
PUSTAKA UTAMA/ REFERENCES
1. KR Trethewey dan J Chamberlain (Terj: A. T Kuntjono Widodo), “Korosi untuk mahasiswa dan Rekayasawan”, PT Gramedia Pustaka Utama, Jakarta, 1991
2. M.G Fontana, “Corrosion Engineering”, McGraw-Hill Book Company, New York, 1987
3. H.H Uhlig and R.W Revie, “Corrosion and Corrosion Control” An Introduction to Corrosion Science and Engineering, John Wiley & Sons, New York, 1985
4. Denny A Jones, “Principles and Prevention of Corrosion” 2nd Ed, Prentice Hall, New York, 1996
5. V.R Pludek, “Design and Corrosion Control” The Macmillan Press Ltd, New York, 1977
6. W.H Ailor, “Handbook on Corrosion Testing and Evaluation” The Electrochemical Sociaty, Inc. Princeton, New Jersey, 1971
7. P.R Roberge, “Handbokk of Corrosion Engineering” McGraw-Hill Companies, New York, 2000
MATA KULIAH/ COURSE TITLE
SF 091215: Difraksi Kristal SF 091215: Crystal Diffraction Credits: 3 Semester: VII
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menerapkan konsep dasar kristalografi dan mampu menganalisis data difraksi sinar-X menggunakan perangkat lunak untuk tujuan identifikasi fasa dan menggunakan perangkat lunak untuk tujuan analisis .
Students are able to apply the basic concepts of crystal-lography and able to analyze the X-ray diffraction data using the software for phase identification purposes and use the software forthe purpose of analysis.
KOMPETENSI/ COMPETENCY
Mahasiswa dapat menjelaskan konsep kristalografi (elemen dan operasi simetri dalam kristal, point group dan notasinya dalam kristal, space group struktur kristal).
Mahasiswa dapat mampu menjelaskan sifat sinar-X dan difraksinya pada kisi kristal;
Mahasiswa mampu mendemonstrasikan preparasi sampel dan mendapatkan data melalui pengoperasian alat difraktometer;
Mahasiswa mampu menganalisis data XRD untuk indexing; Mahasiswa mampu menganalisis data XRD secara kualitatif dan
menggunakan software phase identification; Mahasiswa mampu menganalisis data XRD secara kuantitatif
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dengan software untuk Rietveld refinement.; Students can explain the concept of crystallography (elements
and symmetry operations in the crystal, point group and the notation in the crystal, space group crystal structure.)
Students may be able to explain the nature of X-ray and diffraction in the crystal lattice;
Students are able to demonstrate the sample preparation and obtain data through the operation of the device diffractometer;
Students are able to analyze the XRD data for indexing; Students are able to qualitatively analyze the XRD data and
phase identification software; Students are able to quantitatively analyze the XRD data for
Rietveld refinement with the software.;
POKOK BAHASAN/ SUBJECTS
Pendahuluan dan terminologi kristalografi Pengertian simetri, Elemen-elemen simetri, Indeks Miller dan bidang
kristal, Operasi-operasi simetri, Kombinasi simetri Simetri untuk kisi Bravais, Kristalografi Point Group, Notasi Hermann-
Mauguin Sistem kristal, Kristalografi Space Group, Membangun Struktur kristal Karakteristik sinar-X, Pengenalan difraksi serbuk, Difraksi pada Kisi
(Hukum Bragg dan Pers. Laue) Koleksi Data Difraksi Sinar-X, Interpretasi Data Difraksi Sinar-X, Faktor-
Faktor Penting dalam Data XRD Persoalan dalam Indexing Data, Penerapan Indexing dalam Beberapa
Kasus Identifikasi Fasa Data XRD, Analisis Kuantitatif Dasar Metode Rietveld, Ekstraksi Informasi Struktur Kristal.
Introduction and terminology of crystallography; Definition of symmetry, symmetry elements, and Miller index
crystal planes, symmetry operations, symmetry Combination; Symmetry for lattice Bravais, Crystallographic Point Group,
Hermann-Mauguin Notation; crystal system, Crystallographic Space Group, Building a crystal
structure; Characteristics of X-ray powder diffraction Introduction, Diffrac-
tion on Lattice (Bragg's Lawand the Press. Laue); Collection of X-Ray Diffraction Data, Interpretation of X-Ray
Diffraction Data, Important Factors in the XRD data; Issues in Data Indexing, Indexing Application in Some Cases; Phase Identification XRD data, Quantitative Analysis; The Rietveld Method, Crystal Structure Information Extraction.
PUSTAKA UTAMA/
1. Cullity, B.D. dan Stock, S.R. (2001),’Elements of X-ray Diffraction’, Prentice Hall, New Jersey.
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REFERENCES 2. Klug, H. P. & Alexander, L. E. (1974), X-ray diffraction procedures: for polycrystalline and amorphous materials, 2nd edn, Wiley, New York.
MATA KULIAH/ COURSE TITLE
SF 091217: Fisika Semikonduktor SF 091217: Physics of Semiconductors Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat menjelaskan dan menganalisa sifat dan cara kerja semikonduktor dan piranti semikonduktor.
Students can explain and analyze the nature and workings of semiconductors and semiconductor devices.
KOMPETENSI/ COMPETENCY
Mahasiswa dapat menjelaskan model system yang dipakai. Mahasiswa dapat membuat piranti semikonduktor sederhana. Mahasiswa dapat menerangkan dan menganalisa struktur atau
piranti semikonduktor;
Students can explain the model system used. Students can create a simple semiconductor devices. Students can explain and analyze the structure or semicondu-
ctor devices;
POKOK BAHASAN/ SUBJECTS
Teori semikonduktor : Pengertian dasar pita energy dan konsentrasi pembawa muatan dalam kesetimbangan termal, fenomena transportasi pembawa muatan.
Peralatan semikonduktor : Hubungan p-n, transistor, Field Effek Transistor, Kontak Metat-semikonduktor.
Peralatan fotonik : Transisi radiatif, absorpsi optic, L.E.D (light emitted devides), laser semikonduktor, sel surya.
Teknologi semikonduktor : Pertumbuhan kristal dan epitaxy, oksidasi termis, deposisi semikonduktor, system plasma enhanced shemical deposition.
The theory of semiconductors: basic understanding of energy bands and charge carrier concentration in thermal equilibrium, charge carrier transport phenomena.
Semiconductor Equipment: Relationships pn,transistors, Field Effects Transistor,Metat-semiconductor contacts.
Photonic Tools: Transition radiative, opticalabsorption, LED (light emitted devides),semiconductor lasers, solar cells.
Semiconductor technology: crystal growth andepitaxy, thermal oxidation, semiconductor deposition, plasma enhanced shemical
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deposition system.
PUSTAKA UTAMA/ REFERENCES
1. Sze, S.M., Semiconductor Devices, physics and technology, John Wiley & Sony, Inc. 2 nd Ed, 2003
2. Rio, S.R; Iida, M: Fisika dan teknologi semikonduktor, Prandya Paramita, 19982
3. Grove, A.S : Physics and technology of semiconductor Devices, John Wiley & Sony, Inc, 1967
4. Seeger, K., Semiconductor Physics, Springer-Verlag, 5th Edition, 1991
MATA KULIAH/ COURSE TITLE
SF 091219: Elektronika SF 091219: Electronics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu memahami karakteristik op-amp; melakukan desain op-amp dan pengkondisi signal.
Students are able to understand the characteristics of the op-amp; perform the op-amp design and signal conditioners.
KOMPETENSI/ COMPETENCY
Kemampuan memahami permasalahan Kemampuan mengaplikasikan Pengetahuan elektronika untuk diaplikasikan di bidang
Ability to understand issues Ability to apply Knowledge of electronics to be applied in thefield
POKOK BAHASAN/ SUBJECTS
Karakterisasi Dasar penguat operasional ideal; Dasar-dasar penguat amplifier, Komparator tegangan oscilator, filter aktif, Karakteristik penguat operasional non ideal, penguat operasional
terprogram, Penguat instrumentasi Praktikum Penguat amplifier, komparator, oscilator, filter;
Characterization of an ideal operational amplifier;
The basics of the amplifier amplifiers, Comparator voltage oscillator, active filters,
Characteristics of non-ideal operational amplifiers, program-mable operational amplifiers,
Instrumentation amplifier;
Practical amplifier amplifier, comparator,oscillator, filter;
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PUSTAKA UTAMA/ REFERENCES
Op Amps : Design, Application and Troubleshooting, David L. Terrel
MATA KULIAH/ COURSE TITLE
SF 091221: Perpindahan Panas SF 091223: Analysis of Physics System Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan hantaran panas sebagai energi dan mode perjalanannya pada media.
Students are able to explain the thermal conductivity as the energy travels in the media andfashion.
KOMPETENSI/ COMPETENCY
Kemampuan pemahaman panas sebagai bentuk energi Kemampuan analisis hantaran panas dalam berbagai media
Ability understanding of heat as a form of energy Ability analysis of thermal conductivity in variousmedia
POKOK BAHASAN/ SUBJECTS
Pengenalan mode perpindahan panas, Kondisi tunak satu dimensi, Konduksi tunak dua dimensi, Sirip pendingin, Konveksi alami, Konveksi paksa, Besaran–besaran radiasi panas, radiasi benda hitam, faktor
bentuk radiasi, pertukaran kalor benda tak hitam, sistem pertukaran panas.
Introduction of heat transfer mode, The condition of steady one-dimensional, two-dimensional
steady conduction, Cooling Fins, Natural convection, forced convection, Quantities of heat radiation, black body radiation, radiation
shape factor, not a black body heat exchange, heat exchange system.
PUSTAKA UTAMA/ REFERENCES A
1. J. P. Holman, Perpindahan Kalor, Erlangga cetakan keenam, Jakarta 1991
2. F. P. Incropera & D. P. De Witt, Fundamentals of Heat Transfer, John Wiley & Sons, New York 1981
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MATA KULIAH/ COURSE TITLE
SF 091223: Analisis Sistem Fisis SF 091223: Analysis of Physics System Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat memperoleh pengetahuan dasar anasilis
sistem fisis dan pemodelan, menganalisis sistem kontrol automatik,
Memberi pengetahuan dasar, menganalisa sistem kontrol automatik
, kestabilan dan ruang keadaan sistem.
Students are able to get basic science of analysis and
modelling in physics system, automatic control system analysis,
stability and space state system;
KOMPETENSI/ COMPETENCY
Kemampuan analisis masalah sistem Instrumentasi Kemampuan disain pengendali Dapat beradaptasi perkembangan teknologi kontrol
Ability to analysis of problem on instrume system Ability to control disain & adaptation in variate of control
technology
POKOK BAHASAN/ SUBJECTS
Pengantar sistem kontrol, latar belakang matematik :
transformasi laplace, model matematik sistem fisis, aksi dasar
pengontrolan, kontrol otomatik, analisis respon transien,
metode tempat kedudukan akar. Metoda respon-frekuensi,
analisis ruang-keadaan, analisis kestabilan LIAPUNOV, analisis
keteramatan, analisis keterkontrolan.
Introduction of control systems; back groundof Mathematics ;
Laplace transform, Mathematical modelling of physics system,
Basics of Controlling, Control automatics, Transient response
analysis, Poot Locus Method, Methods of frekuensi respon,
State space analysis; analysis lipunov stability, Observable
analysis, controlable analysis
PUSTAKA UTAMA/ REFERENCES
1. Ogata, K., "Teknik kontrol Automatik (sistem pengaturan)", Jilid
1,Penerbit Erlangga 1985.
2. Ogata, K., "Modern Control Engineering", Prentice Hall, 2003
MATA KULIAH/ SF 091225: Pengolahan Sinyal
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COURSE TITLE SF 091225: Signal Processing Credits: 2 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa memahami dasar-dasar pengolahan signal
Mahasiswa mampu menerapkan pengolahan sinyal
Mahasiswa mampu melakukan kuantisasi sinyal digital
Students understand the principle of signal processing Students are able to apply signal processing in problems
related Students are able to quantify the signal and make calculations
related to signal processing
KOMPETENSI/ COMPETENCY
Kemampuan mendiskripsikan signal Mengikuti perkembangan sains dan teknologi pengolahan signal
Ability to describe the signal Ability to adapt and follow the new technology in signal
processing
POKOK BAHASAN/ SUBJECTS
penjelasan mengenai kuliah dan tata tertib kuliah, dasar teori/matematika dan latihanklasifikasi sinyal: sinyal deterministik, sinyal random, sinyal periodik, sinyal non-periodik, sinyal diskrit, sinyal energi terbatas, Transformasi Fourier dan Transformasi Fourier Inversi Sinyal dan sistem diskrit, Transformasi Fourier diskrit, Konvolusi, korelasi, dan fungsi koherensi, Transformasi-Z, Fast Fourier Transform, Filter digital, Sampling dan aliasing, Analisis Spektral
Introduction to lecture and rules; basic theory and mathematics; signal clasification: deterministic signal, random signal, periodic signal, non-periodic signal, discrete signal, finite-energy signal; Fourier Transform and Inverse Fourier Transform; Discrete Signal and System; Discrete Fourier Transform; Convolution; Correlation; Coherence function; Z-tranform; Fast Fourier Transform; Digital Filter; Sampling and Aliasing; Spectral Analysis
PUSTAKA UTAMA/ REFERENCES
1. JG Proakis, DG Manolakis. Digital signal processing: principles, algorithms, and applications. Prentice-Hall, Inc. Upper Saddle River, NJ, USA, 1996.
2. AV Oppenheim and AS Wilsky with IT Young. Signals and Systems. Prentice Hall, 1983.
3. A Papoulis. Signal Analysis. McGraw-Hill, New York, 1977.
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MATA KULIAH/ COURSE TITLE
SF 091227: Pengolahan Citra SF 091227: Image Processing Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan konsep manipulasi data citra digital dan mampu membuat piranti lunak untuk pegolahan citra serta implementasinya pada penginderaan jauh.
Students are able to explain the concept of manipulation of digital image data and capable of making software for image processing and its implementation in remote sensing
KOMPETENSI/ COMPETENCY
Kemampuan pemahaman, menganalisa dalam memecahkan masalah pengolahan citra
Kemampuan penerapan dan membuat perangkat lunak pengolahan citra
Dapat menerapkan pengolahan citra untuk penginderaan jauh Kemampuan adaptasi terhadap perkembangan teknologi
Pengolahan citra;
Ability to understand, analyze in solving image processing problems;
Ability to create software applications and image processing; Can be applied to remote sensing image processing; Ability to adapt to the development of image processing
technology;
POKOK BAHASAN/ SUBJECTS
Pengantar citra digital Transformasi citra Perbaikan citra Pengkodean dan Kompresi citra Representasi dan diskripsi citra; Pengenalan pola dan interpretasi Rektifikasi citra dan klasifikasi citra
Introduction Digital Image, Transformation Image; Image Restoration; Image compression; Image Interpretation; color enhancement; feature of extraction and Image
Clasification.
PUSTAKA UTAMA/ REFERENCES
1. Schalkaff, R.J: “Digital Image Processing and Computer Vision”, John Wiley and Sons, 1989.
2. Gonzales, R.C and Wood, RE: ”Digital Image Processing”, Addison-Wiley, 1992
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3. Soetijono, A: “Diktat Pengolahan Citra”, Fisika FMIPA-ITS, Surabaya, 2001
4. Lillesand, TM and Kiefer RW: “Remote sensing and Image Interpretation”, John Wiley and Sons, 1994
MATA KULIAH/ COURSE TITLE
SF 091231: Instrumentasi Optik SF 091231: Instrumentation Optics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan sistem instrumentasi optik dan mampu merangkai sistem instrumentasi optik sederhana di laboratorium.
Students are able to explain the optical instrumentation systems and capable of stringing a simple optical instrumentation systems in the laboratory.
KOMPETENSI/ COMPETENCY
Kemampuan memecahkan konsep optik Mengikuti dan memanfaatkan perkembangan sains dan teknologi Dapat menerapkan dasar-dasar optik untuk mengukur gejala fisika.
Ability to solve optics concept; Follow and utilize science and technology development; Able to apply fundamentals of optics to measure the physical
symptoms.
POKOK BAHASAN/ SUBJECTS
Optika geometri/Geometrical Optics: sistem lensa/Sistem lenses , komponen optik/Component optics
Interferometri:interferensi/Interference, interferometer/Interferometer,
Holografi/Holography; Fotoelastisitas/Photo Elasticity: konsep dasar elastisitas/ the basic
of Elastics, teori fotoelastisitas/ Theory of photoelastics, aplikasi fotoelastisitas/Application of photoelastic
Geometry Optics / Geometrical Optics: lenssystem / System lenses, optical components /optics Component;
Interferometry: interference / interference, interferometers / Inter- ferometer,
Holography / Holography; Photoelasticity / Photo elasticity: basic concepts of elasticity /
The basic of Elastics, Photoelasticity theory / Theory of photoelastics, Photoelasticity application / Application of photoelastic
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PUSTAKA UTAMA/ REFERENCES
1. Guenther,G., “Modern of Optics”, John Wiley & Sons, New York , 1990
2. Klein, M.V. and Vurtak, “Optics”, John Wiley & Sons, 1986. 3. David W. Robinson, Graeme T. Reid, “Interferogram analysis: Digital
Fringe Pattern Measurement Techniques”, Institute of Physics 1993 4. Smith, H.M., “Principles of Holography”, John Wiley & Sons, 1969. 5. DeVelis,J.B. and Reynolds, G.O., “Theory and Applications of
Holography”, Addison Wesley. 6. Dally, JW. & W.F. Riley, “Experimental Stress Analysis”, McGraw-
Hill, New York, 1991 7. Srinarth, L.S.,“Scattered Light Photoelasticity”, Tata McGraw-Hill,
New Delhi, 1983.
MATA KULIAH/ COURSE TITLE
SF 091233: Komputasi Optik SF 091233: Optics Computation Credits: 4 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu mengimplementasikan metode numerik untuk mengeksploitasi fenomena optik dan gelombang elektromagnetik. Mahasiswa dapat menerapkan skema numerik: skema program linear untuk mensimulasikan jejak sinar dalam sistem optis, skema diferensiasi dan integral untuk perhitungan besaran difraksi Fresnel, sekema FFT untuk menvisualisasi difraksi Fraunhofer, skema persamaan nonlinear untuk mendesain Pemandu Gelombang, skema persamaan diferensial biasa pemecah persamaan Helmholtz untuk memvisualisasikan pola medan moda gelombang terpandu, skema curve fitting untuk mendapatkan kuantitas optis dari fitting model matematis terhadap data eksperimen optis, skema optimalisasi untuk mendesain struktur optimal antena dipol, slot, dan larik, skema FDTD untuk memvisualisasi pola medan radiasi antena, dan memecahkan persamaan gelombang nonlinear untuk mengeksploitasi fenomena optika nonlinear.
Students are able to implement numerical methodsto exploit the phenomenon of optical andelectromagnetic waves. Students can apply thenumerical scheme: linear programming scheme tosimulate trace rays in optical systems, differentiation and integral scheme for the calculation of Fresnel diffraction scale, FFT scheme for his visualization of the Fraunhofer diffraction, nonlinear equations for the design scheme Waveguide scheme, ordinary differential equation solver equation Helmholtz to visualize thefield patterns of guided wave modes, curve fittingscheme to obtain optical quantity of fitting mathe-matical models to experimental optical data, the optimization scheme for designing the optimalstructure of dipole antennas, slot, and
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the array, FDTD scheme to visualize the pattern of the antenna radiation field, and solve nonlinear wave equation to exploit the phenomenon of nonlinear optics.
KOMPETENSI/ COMPETENCY
Kemampuan menganalisa masalah Kemampuan analisa fenomena optik Kemampuan beradaptasi teknologi optik
Ability to analyze problems; Ability analysis of optical phenomena; Ability to adapt optical technology
POKOK BAHASAN/ SUBJECTS
Metode Numerik: program linear, persamaan nonlinear, diferensial dan integral, persamaan diferensial biasa, pengepas kurva, optimalisasi, skema FFT, pendekatan beda hingga dengan FDTD.
Fenomena Optik: Jejak sinar dalam sistem optik dengan pendekatan paraxial dan metode matrik, Aberasi dalam lensa,
Interferensi: prinsip Huygens dan Cornu Spiral, Koherensi, Difraksi: Fresnel dan Fraunhofer, Perambatan Gelombang
Elektromagnetik: Persamaan Helmholtz dan persamaan relasi dispersi moda gelombang untuk Pemandu Gelombang Planar dan Serat Optik,
Persamaan Maxwell untuk Antena: return loss dan VSWR, Perambatan gelombang dalam media nonlinear; Persamaan Nonlinear Schrodinger, Persamaan Kortewegde Vries.
Numerical Method, linear programming, nonlinear equations, differential and integral equation.
Optical phenomena, matrix method, aberation lens. Interference Huygns prinsip, Spiral Cornn, Coherence. Difraction : Fresnel and Fraunhofer, Propagation of
electromagnetics Wave, Helmholtz equation, Planar wave guide, Fiber Optics.
Maxwell equation for antenna; Return loss and VSWR, Propagation Wave on nonlinear medium, Nonlinear Schrodinger Equation, Kortewegde Vries Equation.
PUSTAKA UTAMA/ REFERENCES
1. Richard H.Enns and George C.Mc Guire, “Nonlinear Physics with Mathematica for sicientists and Engineers”, Birkhauser, Boston,2001.
2. John Peny and George LinField, “Numerical Methods Using Matlab”, Ellies Horword Press, 1995.
3. William Mc.Donald et al, “Wave and Optics Simulations”, The Consorcium for Upper-Level Physics Software, John Wiley & Sons INC,1993
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MATA KULIAH/ COURSE TITLE
SF 091235: Fisika Matematika Lanjut SF 091235: Advanced Mathematical Physics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mengenal dan mampu menggunakan metoda penyelesaian persoalan-persoalan fisika tingkat lanjut.
Students are familiar with and be able to apply appropriate solutions for advanced physical problems.
KOMPETENSI/ COMPETENCY
Kemampuan analisa masalah Kemampuan memadukan masalah fisika kebentuk model
matematika
Ability to analyze problems Ability to integrate physics problem to the form of mathe-
matical models
POKOK BAHASAN/ SUBJECTS
Tensor; Persamaan integral; Kalkulus variasi, Fungsi Green, Geometri dan topologi. Tensors, integral equations, calculus of variations, Green
functions, geometry and topology
PUSTAKA UTAMA/ REFERENCES
1. Wyld, H.W., “Mathematical Method for Physics”, Benyamin/ Cumming, Massachusset, 1976
2. Arfken, G., “Mathematical Method for Physicists”, Academic Press, London, 1985
3. Frankel, T., “The Geometry of Physics” Cambridge Univ. Press, Cambridge, 1997
4. Nash, C. and S. Sen, “Topology and Geometry for Physicist”, Academic Press, London, 1983
MATA KULIAH/ COURSE TITLE
SF 091237: Teori Relativitas Khusus SF 091237: Special Theory of Relativity Credits: 2 Semester:
TUJUAN PEMBELAJARAN/ LEARNING
Mahasiswa memahami sifat dan perilaku materi yang bergerak di dalam system kerangka dengan laju mendekati laju cahaya serta akibat-akibat yang ditimbulkannya.
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OBJECTIVES Students understand properties and behavior of obyects moving in the inertial frame of reference with velocity approaching light velocity and their implications.
KOMPETENSI/ COMPETENCY
Kemampuan abstraksi dalam relativitas The ability of abstraction inrelativity
POKOK BAHASAN/ SUBJECTS
Latar belakang historis; postulat; Transformasi Lorentz; Momentum, gaya, dan energi; Ruang-waktu Minkowski; kinematika; Dinamika partikel; elektrodinamika.
Historical background, postulates, Lorentz transformation, momentum, force and energy, Minkowski space-time, particle kinematics and dynamics, electrodynamics
PUSTAKA UTAMA/ REFERENCES
1. Purwanto, A., “Teori Relativitas Khusus”. ITS Press, Surabaya, 2011.
2. Pauli, W., “Theory of Relativity”, Dover, New York, 1981 3. Bergmann, P.G., “Introduction to the Theory of Relativity”,
Prentice Hall on India, New Delhi, 1988
MATA KULIAH/ COURSE TITLE
SF 091239: Teori Group SF 091239: Group Theory Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mengenal prinsip-prinsip simetri dan mampu merumuskan secara matematis serta menggunakannya sebagai metoda penyederhanaan, klasifikasi dan penyelesaian sistem fisika.
Students are familiar with symmetry principles and be able to build mathematical formulations as well as applying ithem as simplification, classification and solution methods for physical problems.
KOMPETENSI/ COMPETENCY
Kemampuan memahami penyerderhanaan sistem fisika Kemampuan analisis masalah dan penerapan beberapa teori
dalam fisika lanjut. Ability to understand the physics system simplification; Ability to problem analysis and application of advanced several
theories in physics
POKOK Simetri, ruang Hilbert,
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BAHASAN/ SUBJECTS
Grup abstrak, grup hingga, grup kontinu, Teori representasi, Penerapan dalam mekanika kuantum, Zat padat dan kristalografi.
Symmetry, Hilbert space, abstract, finite and continuous group, representation theory, their application in quantum mechanics, solid state and crystallography.
PUSTAKA UTAMA/ REFERENCES
1. Jones, H.F., Groups, Representations and Physics, Institute of Physics, Bristol, 1998.
2. Joshi, A.W.,’ Element of Group Theory for Physicists”, Wiley Eastern, New Delhi, 1973.
3. Tung, W.K., “Group Theory in Physics”, World Scientific, Singapore, 1985.
MATA KULIAH/ COURSE TITLE
SF 091208: Pengantar Fisika Bahan SF 091208: Introduction to Materils Physics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat memahami dan menjelaskan struktur dan sifat dasar berbagai jenis bahan dan penggunaannya.
Students can understand and explain the structure and nature of the various types of materials and their use
KOMPETENSI/ COMPETENCY
Mahasiswa dapat melakukan identifikasi dan klasifikasi jenis – jenis bahan di alam sekitar .
Mahasiswa mampu menjelaskan pemrosesan setiap jenis bahan. Mahasiswa mampu menerangkan hubungan antara pemrosesan,
struktur bahan, dan sifat fisisnya. Mahasiswa mampu menerangkan aplikasi bahan dalam
kehidupan sehari – hari sesuai dengan sifat-sifatnya. Students can identify and classify the type of material in
the nature around. Students are able to explain the processing of each type
of material. Students are able to explain the relationship between
processing, structure, materials, and their physical properties. Students are able to explain the material application
in daily life the day according to their properties.
POKOK BAHASAN/
Mengenal bahan di sekitar kita, klasifikasi bahan, atom, ikatan antar atom, bahan kristal dan amorf, struktur kristal, cacat kristal,
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SUBJECTS diagram dan transformasi fasa, difusi dalam bahan, logam, keramik, polimer, bahan komposit, sifat bahan : mekanik, termal, listrik, magnetik dan optik; degradasi bahan.
Know the material around us, the classification of materials, atoms, bonds between atoms, crystals and amorphous mate-rials, crystal structure, crystal defects, phase diagrams and transformation, diffusion in materials, metals, ceramics, polymers, composite materials, material properties: mechani-cal, thermal, electrical, magnetic and optical; material degra-dation.
PUSTAKA UTAMA/ REFERENCES
1. Callister Jr,W.D.,“Fundamental of Materials Science & Engineering", John Wiley and Son, 5th Edition, New York, 2001.
2. Smith, W.F., “Principles of Materials Science and Engineering”, 3rd Edition, McGraw-Hill, Inc (International Edition), New York, 1996.
MATA KULIAH/ COURSE TITLE
SF 091210: Fisika Polimer SF 091210: Physics of Polymer Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa akan dapat memahami prinsip dasar (aspek fisis) fisika polimer kaitannya dalam pengembangan dan penerapan bahan polimer.
Students will be able to understand the basic principles (physical aspects) related polymer physics in the development and application of polymer materials.
KOMPETENSI/ COMPETENCY
Menjelaskan jenis polimer yang terkait dengan struktur rantai dan respon terhadap lingkungan.
Menjelaskan metode polimerisasi polimer Menjelaskan pengaruh kristalinitas terhadap sifat fisis polimer Menganalisis dan memprediksi model perilaku mekanik polimer Menjelaskan perkembangan polimer terkini.
Explain the types of polymer chains associated with the structure and response to the environment.
Explain the method of polymerization of polymers; Describe the effect of crystallinity on physical properties of
polymers; Analyze and predict the mechanical behavior of polymer models; Explain the development of polymer-date.
POKOK BAHASAN/ SUBJECTS
Tipe dan jenis Polimer, ikatan dalam polimer, jarak ikatan dan kekuatan ikatan, struktur rantai polimer, molekul polimer, berat molekul polimer, Sintesis bahan polimer, polimerisasi adisi,
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polimerisasi kondensasi, kristalinitas polimer, model kristalinitas polimer, struktur semikristal, transisi gelas, karakteristik bahan polimer, termoplastik dan termoset, pengenalan polimer konduktif.
The type and type of polymer, the bonding in the polymer, the bond distance and bond strength, the polymer chain structure, molecular polymer, polymer molecular weight, Synthesis of polymeric materials, addition polymerization, condensation polymerization, polymer crystallinity, polymer crystallinity model, semikristal structure, glass transition, characteristics of polymeric materials, thermoplastics and thermosets, the introduction of conductive polymers.
PUSTAKA UTAMA/ REFERENCES
1. Rosen, S. L., “Fundamental Principles of Polymeric Materials”, A Wiley- Interscience Publication, John Wiley & Sons, New York, 1986.
2. Billmeyer, F.W., “Texbook of Polymer Science”, Wiley Interscience, New York, 1990.
3. William M Alvino, Plastics For Electronic, Materilas, Properties, and Design Applications, McGraw-Hill, Inc, New York , 1994
4. Iwao Teraoka, Polymer Solutions, An Introduction to Physicals Properties, John Wiley & Sons, Inc , 2002
MATA KULIAH/ COURSE TITLE
SF 091212: Fisika Bahan Komposit SF 091212: Physics of Composite Materials Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat menjelaskan deskripsi bahan komposit, pemrosesan, sifat – sifat bahan komposit dan penggunaannya.
Students can explain the description of composite materials, processing, properties of composite materials and their usage.
KOMPETENSI/ COMPETENCY
Mahasiswa mampu mendiskripsikan definisi bahan komposit. Mahasiswa mampu menerangkan peranan pengisi dalam penguatan
bahan komposit Mahasiswa mampu menerangkan kualitas permukaan dan ikatan
antar muka bahan matriks dan pengisi Mahasiswa dapat menyebutkan aplikasi bahan komposit di antara
bahan lain dalam kehidupan sehari – hari.
Students are able to describe the definition of composite materials.
Students are able to explain the role of filler in there inforce-ment of composite materials;
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Students are able to explain the quality of surfaceand interfacial bond between matrix and fillermaterials;
Students can mention the application of composite materials among other materials in the life - day.
POKOK BAHASAN/ SUBJECTS
Definisi bahan komposit, bahan matrik dan pengisi/filler, komposit : unidireksional, isotropik, struktur lamina dan ply, analisis kekuatan bahan komposit, fabrikasi bahan komposit, strukturmikro, cacat, retak dan sobekan, aplikasi bahan komposit.
The definition of a composite material, matrixmaterial and filler / filler, composites: unidirectional, isotropic, and ply laminated structure, strength analysis of composite materials, composite materials fabrication, microstructure, defects, cracks and cutouts, composite materials applications.
PUSTAKA UTAMA/ REFERENCES
1. Chawla, A.K., “Mechanics of Composite Materials”, CRC Press , New York, 1997.
2. Zainuri, M & Asrori, M.Z., “Fisika Bahan Komposit”, Buku Ajar, Jurusan Fisika FMIPSA ITS, 2009.
MATA KULIAH/ COURSE TITLE
SF 091214: Fisika Bahan Lanjut SF 091214: Physics of Advanced Materials Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat menyebutkan bahan – bahan baru, mengetahui struktur dan sifat – sifatnya serta aplikasinya.
Students may mention the new material, the structure and nature and application.
KOMPETENSI/ COMPETENCY
Mahasiswa mampu menerangkan gejala superkonduktivitas dan bahan superkonduktor
Mahasiswa mampu menerangkan mekanisme fisis dalam bahan untuk intrumentasi
Mahasiswa mampu menerangkan metoda proses serbuk dan aplikasinya
Mahasiswa mampu menerangkan pemrosesan, strumtur dan aplikasi nanomaterial
Students are able to explain the phenomenon of superconduc-tivity and superconducting materials;
Students are able to explain the underlying physical mechanisms in materials for intrumentasi;
Students are able to explain the method of powder processes
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and applications; Students are able to explain the processing, structure and
applications nanomat
POKOK BAHASAN/ SUBJECTS
Superkonduktivitas, jenis superkonduktor, bahan superkonduktor, superkonduktor suhu kritis tinggi; metalurgi serbuk : klasifikasi dan fabrikasi serbuk, distribusi ukuran dan morfologi serbuk, pemrosesan serbuk; material nano : obyek berukuran nanometer, serbuk dan partikel nano, komposit nano, piranti nano; sensor dan aktuator, piranti magneto-elektronik, spintronika.
Superconductivity, type superconductors,superconducting materials, high criticaltemperature superconductors; powder metallurgy:classification and fabrication of powder, size distribution and morphology of powders, powder processing, nano material: nanometer-sized objects, powders and nano particles, nanocomposites, nano devices, sensors and actuators, magneto-electronic devices, spintronika.
PUSTAKA UTAMA/ REFERENCES
1. Informasi dari Website 2. Artikel dalam Jurnal Nasional dan Internasional
MATA KULIAH/ COURSE TITLE
SF 091216: Spektro-mikrografi SF 091216: Spectroscopy and Micrography Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat memahami dan menjelaskan interaksi antara radiasi dan materi, gambaran eksperimen berbagai macam spektroskopi dan aplikasinya di industri.
Students can understand and explain th einteraction between radiation and matter, the image of a variety of spectroscopic experiments and its application in industry.
KOMPETENSI/ COMPETENCY
Mahasiswa dapat dapat memahami radiasi elektromagnetik dan interaksinya dengan atom dan molekul, serta gambaran eksperimen secara umum
Mahasiswa dapat memahami simetri molekul Mahasiswa dapat memahami prinsip dasar spektroskopi rotasi,
vibrasi, elektronik, resonansi magnetik, laser, Mahasiswa dapat memahami prinsip-prinsip mikrografi: MO, SEM,
EPMA, EDX dan aplikasinya.
Students may be able to understand the electromagnetic radiation and its interaction withatoms and molecules, and the
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description of general experimenta; Students can understand the molecular symmetry; Students can understand the basic principles of rotational
spectroscopy, vibrational, electronic, magnetic resonance, lasers, Students can understand the principles micrography: MO, SEM,
EPMA, EDX and application.
POKOK BAHASAN/ SUBJECTS
Interaksi radiasi dengan materi (radiasi elektromagnetik, serapan dan pancaran radiasi, pelebaran garis). Metode eksperimen (spektrum elektromagnetik, elemen dispersi, komponen eksperimen serapan dalam berbagai daerah spektrum, taknik eksperimen yang lain, tipe spektrofotometer perekam), Praktium (Spektroskopi Emisi)
Elemen simetri (sumbu n-fold simetri, elemen simetri, pusat inversi), point group (point group Cn, Sn, Cnv, Dn, Cnh, Dnh, Dnd)
Spektroskopi rotasi (rotor simetri dan asimetri, rotasi infrared, gelombang millimetre, spektra gelombang mikro, spektroskopi Raman rotasi), Spektroskopi vibrasi (molekul diatomik: spektra infrares, spektra raman, anharmonisasi, spektroskopi rotasi-vibrasi; molekul poliatomik: group vibrasi, aturan seleksi vibrasional, spektroskopi rotasi-vibrasi, anharmonisasi), Spektroskopi Elektronik (spektroskopi atomik, spektroskopi elektronik untuk molekul diatomik, spektroskopi elektronik untuk molekul poliatomik), Resonansi magnetik inti dan elektron (Sifat magnetik inti dan elektron, proses resonansi, mengukur pergeseran kimia, coupling hiperfine), Spektroskopi Laser (Laser secara umum, Jenis-jenis laser, kegunaan laser dalam spektroskopi)
Analisis mikrografi dengan OM (oprical microscope), SEM (scaning electron microscope), EPMA (electron probe micro analysis), EDX (energy dispersive X-ray), metode eksperimen dengan OM, SEM, EPMA, dan EDX. Praktikum mikorgrafi
Interaction of radiation with matter (electromagnetic radiation, absorption and emission of radiation, widening the line). Experimental methods (electromagnetic spectrum, the dispersion element, component absorption experiments in various regions of the spectrum, taknik another experiment, type spectrophotometer recorder), Praktium (Emission Spectroscopy)
Elements of symmetry (n-fold axis of symmetry, symmetry elements, the center of inversion), pointgroup (point group Cn, Sn, Cnv, Dn, Cnh, Dnh, Dnd)
Spectroscopy of rotation (rotor symmetry and asymmetry, rotation infrared, millimetre wave, microwave spectra, Raman spectroscopy rotation), vibrational spectroscopy (diatomic-molecule: infrares spectra, Raman spectra,anharmonisasi, rotational-vibrational spectroscopy; polyatomic molecules: group vibra-
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tions, the rules vibrasional selection, rotational-vibrational spectroscopy, anharmonisasi), Electronic Spectroscopy (atomic spectroscopy, electronic spectroscopy fordiatomic molecules, elec-tronic spectroscopy forpolyatomic molecules), nuclear magnetic resonance and electron (core and magnetic properties of electrons, the process of resonance, measuring the chemical shifts, coupling hiperfine), Laser Spectroscopy (Laser in general, types of lasers, the use of lasers in spectroscopy)
PUSTAKA UTAMA/ REFERENCES
1. J.M Hollas, “Modern Spectroscopy”, John Wiley & Sons, New York, 1987
2. Oliver Howarth, “Theory of Spectroscopy An Elementary Introduction” Thomas Nelson and Sons Ltd, London, 1973
MATA KULIAH/ COURSE TITLE
SF 091218: Elektro Akustik SF 091218: Acoustics Electronics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mengerti dasar-dasar komponen elektro-akustik, cara kerja alat-alat ukur khas akustik, serta mengerti kesepadanan pada rangkaian elektro-mekanik. Mahasiswa mengerti besaran-besaran dasar akustik serta perilaku bunyi dalam ruang
Students understand the basics of electroacoustical components, know the operation of typical acoustic instruments and, understand the analogy in electromechanical sytems. Students understand the basic acoustic quantities and the propagation and behaviour of sound waves in enclosed spaces
KOMPETENSI/ COMPETENCY
Dapat menjalankan intrument khas akustik dan menerapkan kesepadanan pada rangkaian elektromekanik
Dapat menganalisa perilaku bunyi dalam ruang dengan menggunakan besaran-besaran akustik
Able to operate typical acoustic instruments and apply the analogy in electromechanical systems
Able to analyse sound waves behaviour using acoustic quantities in enclosed spaces
POKOK BAHASAN/ SUBJECTS
Pengantar Komponen Akustik dan Rangkaian Ekivalen Elektro-mekanik; Alat Ukur ; Besaran Akustik dan Mekanisme Pendengaran Introduction Acoustical Components and Electromechanical Equivalent
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Network Instrumentation Acoustic quantities dan Hearing Mechanism
PUSTAKA UTAMA/ REFERENCES
1. Beranek L.L., Acoustics, McGraw-Hill, New York, 1954 2. Prasetio L., Akustik, Jurusan Fisika – FMIPA, 2003 3. Smith B.J., Peters R.J., Owen S., Acoustics and Noise Control,
Addison Wesley Longman Ltd, England, 1996
MATA KULIAH/ COURSE TITLE
SF 091220: Elektro Digital SF 091220: Digital Electronics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu memahami cara kerja rangkaian digital Students are able to understand to operate digital circuit
KOMPETENSI/ COMPETENCY
Kemampuan pemahaman, menganalisa dalam memecahkan masalah citra digital
Kemampuan penerapan dan membuat perangkat lunak pengolahan citra
Dapat menerapkan citra digital untuk penginderaan jauh Kemampuan adaptasi terhadap perkembangan teknologi
elektronika digital
Ability to understand, analysis in solving of digital image problem
Ability to applied and software construction on image processing
Capability analysis of the problem on instruction system Ability to control design Adaptable for the development of control technology
POKOK BAHASAN/ SUBJECTS
Rangkaian elektronika digital, karakteristik rangkaian terpadu, analisis rangkaian terpadu;
Sistem bilangan, sistem bilangan, bilangan negatif dan komplemen;
Aljabar Boolean dan fungsi peralihan, operator Boolean, peta Karnaugh;
Dasar rangkaian kombinasional, minimisasi, tabel kebenaran, keadaan Don’t Care, flip-flop dan rangkaian sekuensial, Ripple
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Counter, Synchronous Counter. Perancangan rangkaian counter, Riplle Counter, Synchronous
Counter, counter di program; Perancangan rangkaian sekuensial, rangkaian sekuensial
asinkron, rangkaian sekuensial sinkron; Rangkaian pewaktu, Schmitt Trigger, multivibrator;
Digital electronics circuits, characteristic of integrated circuit, integrated circuits analysis;
Number System, negative number and complement Boolean algebra and transfer functions, Boolean operator,
Truth tables, Map Kamaugh; Basic of Combinational circuit, minimisations, Don’t care State,
Secuential circuits, Flip Flop, Ripple counter, Synchronous Counter;
Disaign of Counter Circuits, Ripple Counter, Synchronous Counter, Programable Counter;
Disain of Sekuensial circuits, disain of asinkron and sinkron of sekuntial circuits, Sinkron timer circuits, Schmitt trigger, multivibrator
PUSTAKA UTAMA/ REFERENCES
1. Jain, R.P., “Modern Digital Electronics”, Tata McGraw-Hill, 1984.
2. Singh,B.P., “Digital Electronics”, Dhanpat Rai, 1999.
3. Wilianto, E., "Diktat Elektronika Lanjut I", Fisika MIPA-ITS,
Surabaya, 2002
4. Roger L. Tokheim, “Digital Electronics Principles & Applications”,
7TH edition, The McGraw-Hill Companies, 2008
MATA KULIAH/ COURSE TITLE
SF 091222: Mekanika Fluida SF 091222: Fluid Mechanics Credits: 2 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan tentang medan aliran fluida, hukum – hukum dasar mekanika fluida dan penerapannya.
Students are able to explain about the fluid flow field, the law - the basic law of fluid mechanics andits application
KOMPETENSI/ COMPETENCY
Kemampuan memahami hukum-hukum dasar mekanika fluida Kemampuan menerapkan mekanika fluida dalam berbagai
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Kemampuan dalam analisis tentang mekanika fluida
Ability to understand the fundamental laws of fluid mechanics; Ability to apply fluid mechanics in a variety ofproblems; The ability for analysis of fluid mechanics
POKOK BAHASAN/ SUBJECTS
Medan aliran fluida, Sifat – sifat termodinamika fluida, Gaya hidrostatika pada bidang datar, Hukum – hukum dasar mekanika fluida, Persamaan kontinuitas, persamaan Bernaulli, persamaan tenaga,
persamaan diferensial besaran – besaran fluida
Field of Fluid Flows Charactrisrics of fluid thermodinamic Force of hidrostatics Cocept of Laws in fluid mechanics Continuity equations, Bernaulli Equations, Power equations,
Magnitude of fluids equations
PUSTAKA UTAMA/ REFERENCES
1. Frank M. White, Mekanika Zalir, penerbit Erlangga, Jakarta 1986 2. Streeter V. L, Fluida Mechanic, Mc Graw – Hill Inc. 1985
MATA KULIAH/ COURSE TITLE
SF 091224: Fisika Instrumentasi SF 091224: Instrumentation Physics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan dan menggunakan bermacam-macam instrumen pengukur, Mahasiswa mampu memahami cara kerja sesor dan aktuator, Mahasiswa mampu memahami tentang cara-cara antarmuka
Students are able to state and use of measurement instrument; Student are able to understand of sensor and actuator; Student are able to understand about interfacing
KOMPETENSI/ COMPETENCY
Kemampuan memahami tensor, aktuator dan akuisisi data
Ability to understand of sensor and actuator and data aequition
POKOK BAHASAN/ SUBJECTS
Kelengkapan eksperimen dan penggunaannya: multimeter analog/digital, signal generator, oscilos-cope, LCR meter, kalibrator, sumber tegangan, sumber arus; Sensor dan tranducer, pengkondisi sinyal sederhana; Rangkaian pengkondisi sinyal; Penguat
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instrumentasi: logaritmis, anti log, harga mutlak, sampal dan hold, filter; Interfacing: PM 8255, DAC, ADC; Tugas karya dan seminar.
Completed experiments and its use: multimeter analog / digital, signal generator, oscilos-cope, LCR meters, calibrators, voltage sources, current sources, sensors and tranducer, simple signal conditioning, signal conditioning circuit; instrumentation ampli-fier: logarithmic, anti-logs, the price absolute, sampal and hold, filter; Interfacing:AM 8255, DAC, ADC; tasks and work seminars
PUSTAKA UTAMA/ REFERENCES
1. Bucha,D., “Applied Electronic Instrumentation & Measurement”, Maxwell MacMillan Int, 1992
2. Simpson,C.D., “ Industrial Electronics”, Prentice Hall, 1996 3. Jacob,J.M., ”Industrial Control Electronics, Amplification & Design”,
Prentice Hall, 1995 4. Indarto, B., "Diktat Fisika Instrumentasi I", Fisika MIPA-ITS,
Surabaya, 2003
MATA KULIAH/ COURSE TITLE
SF 091226: Fisika Bangunan SF 091226: Building Physics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan gejala–gejala fisika dalam ruangan serta cara – cara pengaturannya.
Students are able to explain physical phenomenain space and how to settings
KOMPETENSI/ COMPETENCY
Kemampuan memahami menganalisis dan mengatur gejala fisis dalam ruangan.
Ability to understand analyze and manage the physical symptoms in the room.
POKOK BAHASAN/ SUBJECTS
Pencahayaan dalam ruangan, Perhitungan beban kalor, Perambatan bunyi dalam ruang, Pemantulan & penyerapan bunyi dalam ruang, Rekomendasi akustik ruang, Waktu dengung, kebisingan & isolasi. Mekanikal elektrikal (transportasi dalam gedung) System proteksi kebakaran
Lighting in the room, Calculation of heat load
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Propagation of sound in space, Reflection and absorption of sound in space, Recommendations acoustic space, Time hum, noise & insulation. Mechanical and electrical (transport in buildings) Fire protection system
PUSTAKA UTAMA/ REFERENCES
1. Boast Warren B. Illumination Engineering, Mc Graw – Hill Inc second edition, New York 1953
2. Wiranto Aris M, Penyegaran Udara, PT Pradnya Paramita cetakan ketiga, Jakarta 1986
3. Leslie L. Doelle, Enviromental Acoustic, Mc Graw – Hill Inc, New York 1972
4. M.D. Egan, Architectural Acoustic, Mc Graw – Hill Inc, New York 1988
5. Fisika Bangunan,
MATA KULIAH/ COURSE TITLE
SF 091228: Intelligent Instrumen SF 091228: Intelegent Instrument Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa memahami dan menjelaskan konsep dasar serta
penerapan kecerdasan buatan dalam instrumentasi
Studenst are able to state and describe the concept and
implementation of artificial intelligent in instruments.
KOMPETENSI/ COMPETENCY
Kemampuan memahami dan menerapkan isi, sistem Fuzzy dan algoritma genetik dalam instrumentasi
Ability to describe and implementation of Neural Network, Fuzzy System, and Generic Algoritma in instrumentation
POKOK BAHASAN/ SUBJECTS
Kecerdasan buatan, dasar-dasar pendukung sistem pakar, komponen-komponen sistem pakar, pengem-bangan sistem pakar;
Logika samar: rancangan dan aplikasi; Jaringan syaraf tiruan; Algoritma genetik; Praktikum logika samar, JST dan Algoritma Genetik
Artificial intelligent, support System of expert System, Component of expert System, developing of expert system
Fuzzy Logic: desain and applications Neural Network
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Genetic Algoritem Laboratory work of Fuzzy logic, Neural Network and Genetic
algorithm
PUSTAKA UTAMA/ REFERENCES
1. Min, F.L., "Neural Network in Computer Intelligence", McGraw-Hill. Inc, Singapore, 1994.
2. Rao,B., Hayagriva, V.Rao, and Valluru, "C++ Neural Network and Fuzzy Logic", MIS PRESS, New York, 1993.
3. George F.I., William A.S., "Artificial Intelligence and Design of Expert system", 1989
MATA KULIAH/ COURSE TITLE
SF 091230: Optika Modern SF 091230: Modern Optics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menggunakan rumusan sederhana tentang optika, mampu menjelaskan sifat-sifat gelombang optik dan fenomena yang berhubungan dengan cahaya, serta mampu melakukan eksperimen sederhana di laboratorium.
Students are able to use a simple formulation of optics, capable of explaining the properties of waves and optical pheno-mena associated with light, and able to perform simple experiments in the laboratory
KOMPETENSI/ COMPETENCY
Kemampuan memahami dan menjelaskan rumusan tentang optik Kemampuan melakukan experimen optik di laboratorium Kemampuan mengikutiperkembangan teknologi optika
Ability to understand and explain the formulation of optical; Ability to perform optical experiments in the laboratory; Ability to follow the development of optics technology
POKOK BAHASAN/ SUBJECTS
Propagasi cahaya, pemantulan dan pembiasan pada permukaan datar serta permukaan lengkung; Intrumentasi optik;
Gelombang Elektromagnetik: spektrum gelombang elektro-magnetik, superposisi, prinsip Huygens-Fresnel, persamaan Fresnel;
Polarisasi cahaya dan metode matrik; Dasar-dasar teori koherensi; Interferensi, dasar-dasar optika lapisan tipis;
Difraksi: persamaan Fresnel-Kirchoff, difraksi Fraunhofer, difraksi Fresnel: integral Cornu;
Eksperimen sederhana di laboratorium: sistem lensa, polarisasi,
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interferensi, difraksi.
Light Propagation, Reflection and defrection, Optical Instrumentation
Electromagnetics wave, Electromagnetics wave Spectrum, Superposision, Huygens-Fresnel Equation, Fresnel Equation.
Polarization of Light and Matrix Method, Coherence Theory, Interference, Thin Film Optics.
Difraction; Fresnel-Kirchoff Equation, Fraunhofer Difraction, Fresnel Difraction, Integral Cornn
Experiment in Laboarory; Lens System, Polarization, Interference, Difraction.
PUSTAKA UTAMA/ REFERENCES
1. Hecht, E., “Optics”, Addison Wesley, 1987. 2. Guenther,G., “Modern of Optics”, John Wiley & Sons, New York ,
1990 3. Klein, M.V. and Vurtak, “Optics”, John Wiley & Sons, 1986. 4. Rahayuningtijas, E.S., dkk., “Diktat Optika”, Fisika- ITS, Surabaya,
2001
MATA KULIAH/ COURSE TITLE
SF 091232: Optika Serat SF 091232: Fiber Optics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan jejak sinar dalam sistem optis, berkas Gaussian dan resonator optis. Mahasiswa memahami proses radiasi atomik, ossilasi laser dan penguatan optis; Mahasiswa mampu menjelaskan tentang pemanduan gelombang, syarat batas moda terpancung, disribusi daya, dan, distorsi tundaan Mahasiswa memahami konsep dasar sistem komunikasi optik, tentang rugi daya, lebar pita dan profil indeks bias, karakteristik sinyal optis dan elektrik, noise.
Students are able to explain the traces of light in optical systems, Gaussian beam and an optical resonator. Students understand the process of atomic radiation, laser oscillation and the strengthening of the optical; Students are able toexplain the guiding wave, the boundary condition terpancung mode, power distribution, and, delay distortion. Students understand the basic concepts of optical communications systems, about the loss of power, bandwidth and refractive index profile, optical and electrical signal characteristics, noise.
KOMPETENSI/ COMPETENCY
Kemampuan melakukan analisis tentang jejak sinar dan optik Kemampuan memahami dan menjelaskan tentang konsep dasar
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komunikasi optik Kemampuan dalammengikuti perkembangan teknologi komunikasi
optic.
Ability to perform analysis of the traces of light and optics; Ability to understand and explain the basic concepts of optical
communications; The ability to follow the development of optical communi-
cation technology.
POKOK BAHASAN/ SUBJECTS
Teori elektromagnetik, Matrik sinar untuk penjejakan sinar dalam sistem optik, hukum
ABCD untuk berkas Gaussian, berkas Gaussian dalam resonator optik, kavitas optik resonan, radiasi atomik;
Penguatan dan osilasi laser; Konsep dasar pemanduan gelombang, Persamaan dasar pemandu
gelombang; Pemandu gelombang dielektrik slab; Serat step index, serat graded index, moda, rugi daya, lebar pita dan
profil indeks bias, karakteristik sinyal optis dan elektrik, noise, detektor, sumber dan transmiter dalam sistem optik.
Electromagnetics Theory Beam Matrix, ASCD Law, Gaussian in Resonator, Optical
Resoanance, Atomic Radiation. Laser Oscilator and amplification. Priciple of waveguide, Slab dielectric waveguide. Step index fiber optics, Greded index fiber optics, modes, power
losses, profile index reflection, Noise, detecto, Source and Transmiterr of optical system.
PUSTAKA UTAMA/ REFERENCES
1. Verdeyen, J.T.,“Laser Electronics”, Prentice-Hall, Inc., New Jersey, 1981.
2. Cherin, A.H., “An Introduction to Optical Fibers”, McGraw-Hill, 1987. 3. Gowar, J., “Optical Communication Systems”, Prentice-
Hall,International, Inc., London, 1984. 4. Suematsu,Y.& K.Iga, “Introduction to Optical Fiber Communication
Systems”, John Wiley & Sons, 1982. 5. Sunarno,H., "Diktat Laser I & II", Fisika MIPA-ITS, Surabaya, 2002. 6. Sunarno,H., "Diktat Serat Optik", Fisika, MIPA-ITS, Surabaya, 2000. 7. Sunarno, H., "Diktat Sistem Komunikasi Optik", Fisika, MIPA-ITS,
2001.
MATA KULIAH/ COURSE TITLE
SF 091234: Elektromagnetika SF 091234: Electromagnetics Credits: 2
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Semester: 6
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu memahami konsep persoalan syarat batas medan elektromagnetik dan aspek mikroskopik atau tinjauan atomik dari medan elektromagnetik.
Students are able to understand the concept of electromagnetic field boundary condition problems and aspects of the microscopic or atomic review of electromagnetic fields.
KOMPETENSI/ COMPETENCY
Kemampuan memahami, menjelaskan, menggunakan dan mengembangkan metode penyelesaian persoalan syarat batas medan elektromagnetik
Kemampuan memahami, menjelaskan dan mengembangkan model teori mikroskopik untuk fenomena medan elektromagnetik
Ability to understand, explain, use and develop methods of solving problems of electromagnetic field boundary conditions.
Ability to understand, explain and develop amodel of a micros-copic theory for the phenomenon of electromagnetic fields.
POKOK BAHASAN/ SUBJECTS
Persoalan Syarat Batas : Problem Elektrostatistika; Persamaan Laplace dalam Koordinat Bola; Persamaan Laplace dalam Koordinat Silinder; Persamaan Laplace dalam Koordinat Kartesian; Motode Bayangan.
Teori Mikroskopik Bahan Dielektrik : Medan Listrik Molekular; Molekul Dipol Induksi; Molekul Polar; Polarisasi Listrik Permanen; Medan Magnetik Molekular; Teori Diamagnetisme; Teori Paramagnetisme; Teori Ferromagnetisme.
Medium Dispersive : Linieritas dan Causalitas; Respon Frekuensi dan Hubungan Dispersi; Model Osilator Harmonik; Absorpsi Resonansi oleh Muatan Terikat; Teori Elektron Bebas Drude; Osilasi Medan dalam Medium Dispersive;
Radiasi Elektromagnetik : Radiasi oleh Osilasi Dipol; Radiasi oleh Antena Setengah Gelombang; Radiasi oleh Gerak Muatan Berkelompok; Zona Medan Dekat dan Intermediat.
Elektrodinamika : Potensial Lineart-Wiechert; Medan oleh Gerak Homogen Muatan; Medan oleh Gerak Dipercepat Muatan; Medan Radiasi untuk Kecepatan Rendah.
Presentasi Makalah Ilmiah
Bondain condition; Electrostatistics, Laplace Equation spere coordinat, Silinder Coordinat.
Microscopy theory in Dielectric; Electric Field molekular, Diploe Molekul, Polarization, Diamagnetism, Feromagnetism theory.
Dispersive Medium; Linearitas and causalitas, Flementary and relation Dispersi, Osilator harmonic, absorbtion, Free Electron.
Electromagnetic radiation; Dipole Oscilation, Antenna, near field
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Electrodynamics: Lineart-Wiechert Potential; Medan by Homoge-neous Charge Motion; Medan by Accelerated Motion Loads; Field Radiation for Low Speeds.,
PUSTAKA UTAMA/ REFERENCES
1. Foundations of Electromagnetic Theory, Reitz, J.R., F.J. Milford, R.W. Christy, Fourth Edition, Addison Wesley, 1993
MATA KULIAH/ COURSE TITLE
SF 091236: Fotonika SF 091236: Photonics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan penjalaran gelombang optik pada divais Fotonika.
Students are able to explain the optical wave propagation in photonics devices.
KOMPETENSI/ COMPETENCY
Kemampuan memahami dan menjelaskan konsep dasar gelombang optik pada divais fotonika
Kemampuan memecahkan masalah Fotonika Kemampuan mengikuti perkembangan teknologi divais fotonika Dapat menerapkan dasar-dasar fotonika pada bidang lain
Ability to understand and explain the basic concepts of optical waves in photonics devices;
Ability to solve problems photonics; Ability to follow the development of photonics device
technology; Able to apply fundamentals of photonics in other fields
POKOK BAHASAN/
Polarisasi cahaya, refleksi dan refraksi cahaya, media anisotropik, kristal liquid
Kristal fotonik satu, dua dan tiga dimensi Pandu gelombang planar, pandu gelombang dua dimensi, pandu
gelombang kristal fotonik, kopling optik di dalam pandu gelombang; Interaksi cahaya dengan bunyi, divais akusto-optik, akusto-optik media anisotropic
Prinsip elektro-optik, elektro-optik media anisotropik, elektro-optik kristal liquid, photo-refractivity, elektro-absorbsi;
Media nonlinear, nonlinear optics orde dua dan tiga; Optika interkoneksi, rute optik pasif, switching fotonik,gerbang logika optik
Polarization of light, reflection and refraction of light,
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SUBJECTS anisotropic media, liquid crystals; Photonic single crystal , two and three dimensions; Planar wave guide, guided wave two-dimensional, photonic
crystal wave guide, optical coupling in the wave guide; interaction of light with the sound, acousto-optical devices, acousto optical -anisotropic media;
The principle of electro-optic, electro-optical anisotropic media, electro-optical liquid crystal, photo-refractivity, electro-absorption.
Nonlinear Media, Second and third order nonlinear Optics, switching photonics.
PUSTAKA UTAMA/ REFERENCES
1. Bahaa E.A. Saleh and Malvin Carl Teich, “Fundamentals of Photonics”, 2nd Ed., A John Wiley & Sons, Inc Publication, New Jersey, 2007.
2. Keico iizuka, “Elements of Photonics” , Vol. I & II, A John Wiley & Sons, Inc Publication, New York, 2002.
3. Hunspenger,R.G., “Integrated Optics: Theory and Technology”, Springger-Verlag Berlin, 1995.
4. Amnon Yariv, “Optical Electronics”, 4th Ed.,Harcourt Brace Jovanoviel College Publishers, New York, 1991.
5. Tamir,T.,”Guided-wave Optoelectronics”, Springer-Verlag, Berlin, 1990.
MATA KULIAH/ COURSE TITLE
SF 091238: Pengantar Fisika Partikel SF 091238: Introduction to Particel Physics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mengenal dan memahami berbagai jenis partikel elementer serta interaksinya dan mampu melakukan perhitungan penampang hambur tumbukan sederhana.
Students understand and be familiar with various elementary particles and their interactions, and be able to calculate simple scattering cross sections.
KOMPETENSI/ COMPETENCY
Kemampuan memahami dan menjelaskan tentang jenis-jenis partikel elementer.
Ability to understand and explain about the types of elementary particles.
POKOK BAHASAN/
Sejarah singkat partikel elementer, dinamika dan gaya-gaya fundamental;
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SUBJECTS lepton dan quark; hamburan dan peluruhan; simetri: grup dan hukum kekekalan, teorema CPT; prinsip tera, diagram Feynman, elektrodinamika, kromodinamika,
interaksi lemah dan unifikasi.
Short history of elementary particles, dynamics and fundamental interactions,
leptons and quarks, scattering and decays,; symmetry: group and conservation law, CPT theorem, gauge principle, Feynman diagram, electrodynamics,
chromodynamics, weak interactions and unification.
PUSTAKA UTAMA/ REFERENCES
1. Fayyazuddin and Riazuddin, “A Modern Introduction to Particle Physics”, World Scientific, Singapore, 1992
2. Grifftith, D., Introction to Elementary Particle, John Wiley and Sons, New York, 1987.
3. Halzen, F. and Martin, A.D., Quarks and Leptons, an Introductory Course in Modern Particle Physics, John Wiley and Sons, New York, 1984.
MATA KULIAH/ COURSE TITLE
SF 091240: Pengantar Kosmologi SF 091240: Introduction to Cosmology Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mengenal perumusan formal dan interaksi gravitasi lebih lanjut dan mengenal perilaku jagad makro serta model-model standar jagad raya.
Students come to know about basic formulation and further gravitational interacton, and understand the behavior of macroscopic universe as well as standard models of the universe.
KOMPETENSI/ COMPETENCY
Kemampuan memahami tentang interaksi gravitasi Kemampuan mengenal perilaku jagad makro
Ability to understand about gravitational interactions; The ability to know the behavior of the macro universe
POKOK BAHASAN/ SUBJECTS
Pengantar dan sejarah teori gravitasi, Prinsip umum kovariansi, tensor kurvatur, Persamaan medan Einstein,
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Elemen kosmologi, model kosmologi relativistik, Model jagad raya non-statik.
Introduction and history of the theories of gravitation, general priciples of the covariance, curvature tensors, Einstein field equation, cosmological elements, relativistic cosmological models nonstatic model of the universe.
PUSTAKA UTAMA/ REFERENCES
1. Tourrenc, P., “Relativity and Gravitation”, Cambridge Univ.Press, Cambridge, 1997
2. Misner, C.W., Thorne, K.S. and Wheeler, J.A., Gravitation, W.H.Freeman, San Francisco, 1973.
MATA KULIAH/ COURSE TITLE
SF 091244: Elektromagnetika Terapan SF 091244: Applied Electromagnetics Credits: 4 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu melakukan penerapan teori medan elektromagnetik di dalam teknik, khususnya teknik telekomunikasi dan mampu memecahkan persoalan sederhana dalam bidang tersebut.
Students are able to perform the application of the theory of electromagnetic fields within engineering, especially in telecom-munications engineering and able to solve simple problems in the field.
KOMPETENSI/ COMPETENCY
Kemampuan memecahkan masalah medan elektromagnet Mengikuti perkembangan sains dan teknologi telekomunikasi
gelombag mikro Dapat menerapkan dasar-dasar medan elektromagnetik pada
bidang lain
Ability to solve electromagnetic field problems; Following the development of science and technology
microwave telecommunications, Able to apply fundamentals of electromagnetic fields in other
areas
POKOK BAHASAN/ SUBJECTS
Garis transmisi : perambatan & pemantulan, VSWR, impedance matching, grafik Smith, striplines; Pandu gelombang
Pandu gelombang segi empat, modus TE-TM, rugi-rugi transmisi, pandu gelombang lingkaran, resonator rongga, pandu gelombang planar.
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Antena: parameter antena, antena dipol dan slot, antena larik, pengukuran antena.
Propagasi gelombang radio: pengaruh permukaan bumi, faktor atenuasi, propagasi troposferik, propagasi ionosfer.
Piranti gelombang mikro.
Transmission lines: propagation & reflection, VSWR, impedance matching, Smith Diagram, strip lines; waveguide:
Rectangular wave guide, TE-TM mode, the transmission losses, circular wave guide, cavity resonator, planar wave guide;
Antenna: antenna parameters, and the slot dipole antenna, antenna array, antenna measurements;
Propagation of radio waves: the influence of the earth's surface, the attenuation factor, troposferik propagation, propagation ionosphere.
Microwaves device.
PUSTAKA UTAMA/ REFERENCES
1. Liao,S.Y., “Engeneering Applications of Electromag-netic Theory”, Info Acces Dist, 1992.
2. Kraus, J.D., “Electromagnetics”, Mc.Graw-Hil, 4th.ed, 1992. 3. Collins,R.E.,“Antenuas and Radio Wave Propagation”, Mc.Graw-
Hill Int, 1985
MATA KULIAH/ COURSE TITLE
SF 091241: Geodinamika SF 091241: Geodynamics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan proses dasar-dasar fisika yang penting untuk memahami tektonik lempeng dan berbagai gejala lainnya yang berhubungan dengan geologi.
Students are able to explain the basics of physics that are important to understanding the tectonic plates and various indicators associated with geology.
KOMPETENSI/ COMPETENCY
Kemampuan memahami fenomena tektonik lempeng, dinamika bumi dan aplikasinya.
Kemampuan memahami, menganalisis, dan memanfaatkan sifat elastisitas (stress, strain, flexure) dan perpindahan panas dan aplikasinya.
Ability to understand the phenomenon of plate tectonics, earth dynamics and its applications.
Ability to understand, analyze, and utilize the properties of elasticity (stress, strain, flexure) and heat transfer and its appli-
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cation
POKOK BAHASAN/ SUBJECTS
Review Tektonik Lempeng, Stress dan strain padatan, Elastisitas dan aplikasinya, Perpindahan Panas dan aplikasinya, Mekanika Fluida dan aplikasinya.
Review of Plate Tectonics, Stress and strain of solids, elasticity and its application, and application Heat Transfer, Fluid Mechanics and its application
PUSTAKA UTAMA/ REFERENCES
1. Turcotte, D.L and G.Schubert, Geodynamics : Applications of Continuum physics to geological problems, John Willey & Sons. Inc, 1982.
2. Jaeger, J.C and N.G.W Cook, Fundamental of Rock Mechanics, Chapman & Hall, London, 1976.
3. Kearey, P., and Vine, F. J., Global Tectonics, 2nd edition, Blackwell Science, 1996.
4. Timoshenko,S and J.N Goodier, Theory of Elasticity, McGraw-Hill, New York, 1970.
5. Batchelor, G.K, An Introduction to fluid Dynamics, Cambridge Univ Press, London, 1967.
MATA KULIAH/ COURSE TITLE
SF 091256: Fisika Batuan SF 091256: Rock Physics Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu memahami dan menguasai keadaan fisis dan sifat batuan dan mengintegrasikannya sehingga mempunyai kemampuan menginterpretasi data geofisika lebih dalam.
Students are able to understand and master the physical state and properties of rocks and integrate it and has the ability to interpretate geophysical data with deeply.
KOMPETENSI/ COMPETENCY
Kemampuan menganalisis dan menginterpretasi data geofisika lebih dalam dengan mamanfaatkan sifat fisik batuan.
Ability to analyze and interpretate geophysical data with deeply by using physical properties of rocks.
POKOK BAHASAN/ SUBJECTS
Pendahuluan, pengertian dasar dan latar belakang (Komposisi batuan di bumi, Hasil-hasil percobaan – overview,
Model/desain dalam teori petrofisika – overview), Porositas dan permeabilitas, Densitas Batuan, Sifat Magnet
batuan , Sifat listrik Batuan (sifat kelistrikan mineral dan batuan,
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Model/desain), Sifat elastis batuan(Sifat elastis mineral dan batuan, Kecepatan
gelombang elastis pada batuan, Model/desain), Hubungan antar sifat fisis batuan.
Introduction, understanding the basis and background of the (composition of rocks on Earth,The results of the experiment – overview;
Model / design in theory petrophysics - overview) Porosity and permeability, density, rock, rock magnetic proper-
ties, electrical properties of rocks (the electrical properties of minerals and rocks, model / design);
Elastic properties of rocks (elastic properties of minerals and rocks, elastic wave velocity in rocks, model / design),
The relationship between physical properties of rocks.
PUSTAKA UTAMA/ REFERENCES
1. Schoon,J.H., 1998, Physical properties of rocks: fundamental and principles of petrophysics, Pergamon.
2. Jurnal-jurnal Geophysics tentang “rock properties”.
MATA KULIAH/ COURSE TITLE
SF 091245: Analisa Well-Log SF 091245: Well-Log Analysis Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mengetahui dan dapat menjelaskan teknik logging, beberapa metode pengukuran logging dan aplikasinya.
Students know and can explain logging techniques, several methods of measurement and its application of logging.
KOMPETENSI/ COMPETENCY
Kemampuan menganalisis dan menginterpretasi data hasil pengukuran well logging.
Ability to analyze and interpretate measurement results of well logging data.
POKOK BAHASAN/ SUBJECTS
Pendahuluan (Definisi Well-log, Pentingmya metode Well-log), Teknik logging dan pengukuran, Log-SP (Definisi, Kurva awal SP,
Static SP, Pseudo – SP, Faktor yang mempengaruhi bentuk dan amplitudo puncak SP, Geologi dan log SP),
Log Resistivitas (definisi, klasifikasi log Resistivitas, faktor geologi yang mempengaruhi resistivitas, koreksi lingkungan pada log resistivitas),
Log Sinar Gamma (Definisi, radioaktivitas alami pada batuan, mineral dan batuan yang mengandung elemen radioaktif, faktor
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yang mempengaruhi respon sinar gama), Log Netron, Log Formation Density, Log Sonic, termal Dcay time dan
aplikasinya.
Introduction (Definition of Well-log, The Importance of Well-log method),
logging and measurement techniques, Log-SP (Definitions, initial curve SP, SP Static, Pseudo -SP, Factors that influence the shape and amplitude of the peak SP, Geology and log SP),
Log Resistivity (definition, classification resistivity logs, geologic factors affecting the resistivity, the environmental correction on resistivity logs), Gamma Ray Log (Definitions, naturalradioactivity in rocks, minerals and rocks that contain radioactive elements, factors influencing the response of gamma rays),
Log Neutrons, Formation Density Log, LogSonic, thermal Dcay time and application.
PUSTAKA UTAMA/ REFERENCES
1. Schlumberger, 1989, Log Interpretation Principles/Applications 2. Sylvan J. Person, 1963, Hand Book of Well Log Analysis, Prentice
Hall, NY
MATA KULIAH/ COURSE TITLE
SF 091247: Eksplorasi Geothermal SF 091247: Geohermal Exploration Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan dan menerapkan metode geofisika dalam eksplorasi geotermal khususnya di Indonesia.
Students are able to explain and apply geophysical methods in geothermal exploration, especially in Indonesia.
KOMPETENSI/ COMPETENCY
Kemampuan memahami mengenali dan memahami konsep dasar manifestasi geothermal.
Kemampuan menganalisis dan menginterpretasi data geofiska dalam eksplorasi Geothermal.
Ability to understand recognize and understand the basic concept of geothermal manifestations.
Ability to analyze and interpretate geophysical data in geothermal exploration.
POKOK BAHASAN/
Pendahuluan Geotermal (Definisi, system panas bumi dan eksplorasi geothermal di Indonesia),
Pendahuluan Geokimia (Hukum Termodinamika dan kesetimbangan,
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SUBJECTS kesetimbangan pada system geothermal dan isotop geotermometer, Pendahuluan Geologi (permeabilitas, igneous petrology, batuan beku,
logging of drillhole dan hidrotermal alteration), Eksplorasi geofisika pada geothermal (summary of methods,
parameter fisika batuan ), Metode Sp + geolistrik (mapping), Sounding + mapping of lateral
resistivity discontinuities, Metode Termal, Metode gravity, Metode magnetik, Metode seismic (aktif + pasif).
Geothermal Introduction (Definitions, geothermal systems and geothermal exploration in Indonesia),
Introduction to Geochemistry (Law of Thermodynamics and equilibrium, equilibrium ingeothermal systems and isotope geother-mometer),
Introduction to Geology (permeability, Igneouspetrology, igneous rock, logging of drillhole andhydrothermal alteration),
Exploration geophysics at geothermal (summaryof methods, physical parameters of rocks),
Sp + geoelectrical methods (mapping), Sounding+ mapping of lateral resistivity discontinuities,Thermal Methods, gravity methods, magneticmethods, seismic methods (active + passive).
PUSTAKA UTAMA/ REFERENCES
1. Telford, WM; Geldart, L.P; Sheriff, RE, 1976, Applied Geophysics, Cambridge Univ Press, Cambridge.
2. Ellis, A.J Malon, W.A.J, 1977, Chemistry and Geotermal System, Academic Press.
3. Laughlin, W.A, Exploration for Geotermal Energy. 4. Jurnal Geofisika
MATA KULIAH/ COURSE TITLE
SG 091244: Eksplorasi Medan Potensial Bumi SG 091244: Potentials Field Exploration Credits: 3 Semester:
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mengerti konsep dasar gravitasi/magnetik bumi (medan potensial bumi), mampu menentukan anomali gravitasi/ magnetik serta mampu menafsirkan/menginterpretasikan struktur geologi bawah permukaan yang sesuai dengan anomali gravitasi/magnetik.
Students understand the basic concepts of gravity /magnetic earth (earth potential field), able to determine the anomalies of gravity / magnetic and able to interpretate subsurface geological structure associate with the anomalies of gravity / magnetic data.
KOMPETENSI/ Kemampuan dalam menentukan anomaly, menafsirkan dan
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COMPETENCY menginterpretasi struktur geologi bawah permukaan dengan memanfaatkan data potensial bumi.
The ability to determine the anomaly, interpreting and interpre-tation of geological structures sub- surface of the earth potential by utilizing the data.
POKOK BAHASAN/ SUBJECTS
Medan gravitasi/magnetik bumi, Perolehan data dan reduksi data gravitasi/magnetik, Pengolahan data gravitasi/magnetik, Penentuan dan pemisahan anomali, Interpretasi anomali
gravitasi/magnetic.
The gravitational field / magnetic earth, Acquisition of data and data reduction of gravity /magnetic, Data processing gravity / magnetic, Determination and separation anomalies, gravity anomalies Inter-
pretation / magnetic
PUSTAKA UTAMA/ REFERENCES
1. Dobrin, "Introduction to Geophysical Prospecting", Mc.Graw-Hill, 1983.
2. Telford et. Al, " Applied Geophysics", Cambridge University Press, 1976.
3. Torge Wolfgang, "Gravimetry", de Gruyter Berlin, 1989.
MATA KULIAH/ COURSE TITLE
SF 091246: Seismologi SF 091246: Seismology Credits : 3 Semester :
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan fenomena penjalaran gelombang dalam tinjauan materi padat, yaitu meliputi gempa bumi, elastisitas dan gelombang seismik, gelombang permukaan dan osilasi bebas.
Mahasiswa mampu mengadakan pengukuran atas seismogram, mengidentifikasi fase-fase gelombang dan melakukan analisa seismogram sederhana.
Students are able to explain the phenomenon of wave propaga-tion in solid materials, which include earthquakes, elasticity and seismic waves, surface waves and free oscillations.
Students are able to conduct measurements on seismograms, identifying the phases of the waves and perform simple seismogram analysis.
KOMPETENSI/ Kemampuan dalam mengolah dan menganalisis data seismik
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COMPETENCY (gempa bumi, elastisitas, gelombang permukaan, dan osilasi bebas).
Ability to process and analyze seismic data (earthquake, elasticity, surface wave and free oscillation).
POKOK BAHASAN/ SUBJECTS
Sumber seismik, kaitan gempa bumi dengan sesar, quantifikasi gempa bumi, relasi strain-stress, persamaan gelombang, gelombang P dan S, travel time, refleksi dan transmisi, Energi gelombang dan geometri spreading, gelomabng Rayleigh, dispersi, kurva travel time, lokasi hiposenter.
seismic source,relation of the earthquaketo fault, quantification of earthquake, strain-stress relation, the wave equation, P and S waves, travel time, reflection and transmission, energy and geometrical spreading wave, Rayleigh wave, dispersion, travel time curve, the location hypocenter.
PUSTAKA UTAMA/ REFERENCES
1. Gubbins, D , Seismology and Plate Tectonics, Cambridge University, 1990
2. Thorne, L and Wallace, T.C., Modern Global Seismology, 1995 3. Sheriff, R.E. and Geldart, L.P., Exploration Seismology I, Cambridge
University Press, 1992
MATA KULIAH/ COURSE TITLE
SF 091248: Eksplorasi Kelistrikan Bumi SF 091248: Geo-Electiral Exploration Credits : 3 Semester :
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat menjelaskan metode geolistrik/kelistrikan bumi; pengukuran, pengolahan data, interpretasi dan aplikasinya dalam eksplorasi tambang, hidrogeologi, geoteknik dan lingkungan.
Students can explain the method of geoelectric /electrical earth, measurement, data processing, interpretation and application in mine exploration, hydrogeology, geotechnical and environmental.
KOMPETENSI/ COMPETENCY
Kemampuan dalam melakukan pengukuran, pengolahan, dan interpretasi data geolistrik.
The ability to perform the measurement, processing, and inter-pretation of geoelectrical data.
Pendahuluan (klasifikasi metode kelistrikan, sifat kelistrikan mineral dan batuan),
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POKOK BAHASAN/ SUBJECTS
Metode SP (munculnya potensial diri, prosedur dan pengukuran, interpretasi dan aplikasi),
Metode tahanan jenis (Definisi, medan listrik dari elektroda arus pada bumi berlapis, macam-macam konfigurasi pengukuran, peralatan dan prosedur pengukuran, interpretasi – resistivitas modelling),
Metode Induksi Polarisasi –IP ( Definisi, Polarisasi listrik pad bumi berlapis, konfigrasi pengukuran, peralatan dan prosedur pengukuran, interpretasi ).
Introduction (classification method of electricity,the electrical properties of minerals and rocks),
Method of SP ( the cause of self potential, procedures and measurement, interpretation and application),
Resistivity method (Definitions, the electric field of the electrode current in layered earth, the various measurement configurations, equipment and measurement procedures, interpretation –resis-tivity modeling),
Induction Method of Polarization-IP (Definitions, electric polari-zation of the earth-covered pad, konfigrasi measurement, measurement equipmentand procedures, interpretation).
PUSTAKA UTAMA/ REFERENCES
1. Telford, WM; Geldart, L.P; Sheriff, RE, 1976, Applied Geophysics, Cambridge Univ Press, Cambridge.
MATA KULIAH/ COURSE TITLE
SF 091250: Vulkanologi SF 091250: Vulcanology Credits : 3 Semester :
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa dapat mengerti mengenai proses aktivitas gunung api (vulkanisitas), hasilnya, bentuk dan struktur serta tektonik, sifat kimia dan fisis magma, mekanisme serta mitigasi gunung api.
Students can understand about the process of volcanic activity (vulcanocity), occurance, shape and structure and tectonics, chemical and physical properties of magma, mechanisms and mitigation of volcano.
KOMPETENSI/ COMPETENCY
Kemampuan dalam mengenali vulkanisitas dan mekanisme serta mitigasi gunung api.
Ability to recognize Volcanocity and mechanisms and mitigation of
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volcano.
POKOK BAHASAN/ SUBJECTS
Pendahuluan, aktivitas gunung api, hasil-hasil aktivitas gunung api, bentuk dan struktur gunung api, volkanisitas dan tektonik, sifat fisis-kimia magma, mekanisme erupsi dan fisika gunung api.
Introduction, volcanic activity, the results of volcanic activity, the shape and structure of volcanoes, volkanisitas and tectonics, physical-chemical properties of magma, mechanisms and physics of volcano eruptions
PUSTAKA UTAMA/ REFERENCES
1. Ritmann, 1962, Volcanoes and their activity, John Willey & Sons, NY. 2. Civetta, dkk, 1974, Physical volcanology, Elsevier Science Pub. Co. 3. Decker R, 1980, Volcanoes, Freeman and Co, San Fransisco.
MATA KULIAH/ COURSE TITLE
SF 091252: Eksplorasi Seismik SF 091252: Seismics Exploration Credits : 4 Semester :
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mengenal teori dan aplikasi dari perambatan gelombang dalam survey seismik.
Mahasiswa memahami prosedur dan tahapan dalam akuisisi data seismik pantulan serta langkah-langkah awal pemrosesannya.
Mahasiswa mampu menggunakan teknik pemrosesan data seismik pantul untuk melacak, menganalisis dan membuat interpretasi tentang struktur pelapisan batuan dan karakter fisisnya.
Students know the theory and application of seismic wave propagation in the survey.
Students understand the procedures and stages in the acquisi-tion of seismic reflection data and initial processing steps.
Students are able to use seismic reflection data processing techniques to track, analyze and make interpretations about the layering structure of rocks and their physical properties
KOMPETENSI/ Kemampuan dalam akusisi/perolehan data, pengolahan data, dan
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COMPETENCY interpretasi data seismik .
The ability for acquisition / data acquisition, data processing, and interpretation of seismic data.
POKOK BAHASAN/ SUBJECTS
Pengantar metoda seismik refleksi, instrumentasi dan perlengkapan pengukuran data seismik
pantulan, teori perambatan gelombang seismik pantul, fisika batuan: kecepatan seismik, faktor-faktor yang
mempengaruhinya dan metoda pengukurannya;teori filter dan eliminasi noise, dekonvolusi, normal-moveout, analisa kecepatan dan koreksi statis, dip-moveout, migrasi (pre-stack dan post-stack dalam domain waktu dan kedalaman), metoda interpretasi dan pengantar geofisika reservoir.
Introduction to seismic reflection method, instrumentation and measurement equipment seismic reflection
data, reflection seismic wave propagation theory, physics of rocks: seismic velocity, factor saffecting and methods
of measurement, theory and the elimination of noise filters, deconvolution, normal-moveout, velocity analysis and static-correction, dip-moveout, migration (pre-stack andpost-stack in time domain and depth), method ofintroduction to geophysical interpretation and reservoir.
PUSTAKA UTAMA/ REFERENCES
1. Sheriff, R. E. and Geldart, L. P., Exploration Seismology, Vol. I, Cambridge University Press, 1982.
2. Yilmaz, Öz, Seismic Data Analysis, Vol. I, Society of Exploration Geophysicists, 2001.
MATA KULIAH/ COURSE TITLE
SF 092505 : Analisis Data Seismik Eksplorasi SF 092505 : Credits : 3 Semester : 4
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu menjelaskan tentang prinsip analisa sinyal simultan dalam bentuk analog(A) ke digital (D) menggunakan domain waktu (TD) dan domain frekuensi (FD).
Students are able to explain about the principle of simultaneous signal analysis in analog form (A) to digital (D) using the time domain (TD) and frequency domain (FD).
KOMPETENSI/ COMPETENCY
Kemampuan dalam pengolahan data seismik (analisa data, filtering, pengolahan sinyal digital).
Ability in seismic data processing (data analysis, filtering, digital
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signal processing).
POKOK BAHASAN/ SUBJECTS
Pendahuluan, pengertian dasar dan latar belakang (Proses geofisika, Analisa Fourier, Deret Forier),
Transformasi Fourier (Diskrit Fourier Transform (DFT), Sampling, tapering),
Konvolusi (sifat-sifat konvolusi, desain filter, Filter causal, spike seimogram),
Cros corelasi, Auto corelasi, Dekonvolusi (z-transform, invers filter, dekonvolusi rekrusif, filter weiner, spiking deconvolution).
Introduction, understanding the basic and background (geo-physical processes, Fourier analysis, Seriesof Forier)
Fourier Transformation (Discrete FourierTransform (DFT), sampling, tapering),
Convolution (the properties of convolution, filter design, filter causal, spike seismogram)
Cross corelation , Auto corelation, deconvolution(z-transform, inverse filters, deconvolution rekrusif, weiner filter, spiking deconvolution).
PUSTAKA UTAMA/ REFERENCES
1. Bracewell, R. N.1978, The fourier transform and its applications, Mcgraw-Hill.Inc
2. Oppenhein.A.V, dan R.W. Schafer., 1975, Digital Signal Processing, Prentice Hall Inc., New York.
MATA KULIAH/ COURSE TITLE
SF 092506 : Seminar SF 092506 : Seminar Credits : 2 Semester : 4
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
Mahasiswa mampu mengkaji topik artikel dari jurnal yang bersifat internasional
Students are able to examine the topic of articlesin international journals
KOMPETENSI/ COMPETENCY
Kemampuan dalam mengkaji dan memahami perkembangan terkini dari topik-topik penelitian yang terbaru di dunia.
Ability to assess and understand the latest developments of research topics are the latest in the world.
POKOK BAHASAN/ SUBJECTS
Pemilihan judul, penelusuran literatur, penulisan makalah, presentasi makalah dan mempertahankan makalah di depan tim
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penguji
Selection of titles, literature searches, writing papers, presentation of papers and maintain a paper infront of the test
team
PUSTAKA UTAMA/ REFERENCES
1. Sesuai dengan topic yang dipilih