Download - PHYS 1212 - Physics and Astronomy
PHYS 1212Electricity, Magnetism, Optics
and Modern Physics
Instructor Information
Yiping Zhao
Riverbend South Lab 221 or Physics Building 209
542-7792 or 542-2843
2:30-3:30pm Wed. & Fri. or make an appointment
Direction to Riverbend Office
3
City Bus #12, Riverbend Stop
Entrance
Bus Stop
Textbook
4
Book #3 & #4
Contents
Optics
ElEctricity
MagnEtisM
iPhone/iPad and General Physics
Electronics: resistor, capacitor, diode, transistor, sensor, or MEMS
Photonics: interference, scattering
Electromagnetic waves
Optics: image, lens, camera
Magnetism: hard disk, switch, sensor
Thermodynamics: heat management, device functioning
Quantum mechanics: solid state device design
Mechanics: MEMS and drive design, connector
iPhone/iPad and PHYS1212
A. Piccard, E. Henriot, P. Ehrenfest, E. Herzen, Th. de Donder, E. Schrödinger, J.E. Verschaffelt, W. Pauli, W. Heisenberg, R.H. Fowler, L. Brillouin;
P. Debye, M. Knudsen, W.L. Bragg, H.A. Kramers, P.A.M. Dirac, A.H. Compton, L. de Broglie, M. Born, N. Bohr;
I. Langmuir, M. Planck, M. Skłodowska-Curie, H.A. Lorentz, A. Einstein, P. Langevin, Ch.-E. Guye, C.T.R. Wilson, O.W. Richardson
iPhone and Physics Nobel Prizes
Charles Kuen Kao Willard S. Boyle George E. Smith
2009
CCDOptical fiber
2007
Albert Fert Peter Grünberg
Giant Magnetoresistance
2000
Zhores I. Alferov Herbert Kroemer Jack S. Kilby
Information & communication technology
Integrated circuit
William B. Shockley John Bardeen Walter H. Brattain
1956
Semiconductor transistor
Serge Haroche David J. Wineland
2012
1989
Norman F. Ramsey Hans G. Dehmelt Wolfgang Paul
Atomic clock
Blue LED
Isamu Akasaki
Hiroshi Amano
Shuji Nakamura
2014
Pre-Requests
Up to Chaps. 14, 15, 20 & 21
Derivatives, integration, and multivariable integration
Dot and cross products
Basic knowledge to solve first order differential equations
Course Syllabus
https://www.physast.uga.edu/classes/phys1212/zhao
Grade Policy
85%
15%
2014 Grade Distribution
A A- B+ B B- C+ C C- D F0
2
4
6
8
10
12
14
16
18
Perc
enta
ge
Score
B
Three Methods to Calculate Class Grade
Criteria: Performance + Effort
1st Method to Calculate Class Grade
80%
20%
This means that you take classes all the time, submit your homework, and take all the exams. I can use your HW and tests scores to curve your final class grade.
There will be NO other grade curving in this class no matter how bad the exam scores look like!
2nd Method to Calculate Class Grade
100%
0%
This means that you do not need to submit your homework if you wish, but should take all the exams.
You must be sure you can do well in your exams!
3rd Method to Calculate Class Grade
100%
0%
If you do not want to come to class at all and do not want to take exams during the semester.
A number score will be assigned to you using the highest score from the 3 calculation methods
However, fail to take the final exam will result in an “F”.
Grade Calculation
I will drop the lowest score in each grade catalog.
17
Exam Grade
Exam grade =
Exam#1 grade Exam#2 grade
Exam#3 grade Final exam grade
If Exam#2 grade < Exam#1 grade
Exam#2 grade < Exam#3 grade
Exam#2 grade < Final Exam grade
Exam#1 grade + Exam#3 grade + 2×Final exam grade4
Grade Calculation
18
Exam Grade
18
Test grade =
If Final exam grade < Exam#1 grade
Final exam grade < Exam#2 grade
Final exam grade < Exam#3 grade
Exam#1 grade + Exam#2 grade + Exam#3 grade + Final exam grade4
Letter Grade
1919
A if AS ≥ 90A- if 90 > AS ≥ 85B+ if 85 > AS ≥ 80B if 85 > AS ≥ 75B- if 75 > AS ≥ 70C+ if 70 > AS ≥ 65C if 65 > AS ≥ 55
C- if 55> AS ≥50D if 50 > AS ≥ 30F if 30 > AS
Policy: Exam
2020
Do bring your UGA ID with you when take an exam!
AllowedA writing instrument A pocket calculator A rulerOne 8.5"×11" paper containing constants, formulas, and any other information that you might find useful (NOT any kinds of solutions). Both sides of the sheet may be used.
Not allowedLaptop Tablet (include ipad) Cell phone Use of these or other electronic devices during an exam is a form of academic dishonesty
Policy: Absence from a Class
2121
• Inform me (call or e-mail) before class begins
• Submit a formal note to me with reasonable excuses (such as a note from a doctor if you are sick, etc.)
A grade of zero will be awarded for any homework or exam that is missed without a valid reason.
Policy: Class Withdraw
2222
• Attend the class and hand in home-work regularly, withdrawing before the withdraw deadline, he or she will obtain a “W”.
• DO NOT attend class and DO NOT hand in homework, withdrawing within a week right before the withdraw deadline (<40% of classes and numbers if homework up to the date of withdraw requirement), he or she will obtain a “WF”
Policy: Academic Integrity
2323
The first occurrence of academic dishonesty will result in a score of zero on the assignment, activity, test or exam in question, and the violator will receive a written warning.
A zero received as a result of academic dishonesty will NOT be dropped fromthe record as the lowest grade.
The second occurrence of academic dishonesty will result in an F for the course.
Information: Final Exam Problems
2424
1. In-class activities
2. Homework problems (may change slightly)
3. Class examples (including examples in textbook)
4. Old exams, including Tests #1, #2, #3, and old exam problems posted in eLearning Commons
Information: Efficiency of Learning
2525
What do we absorb or retain:
What we read 10%What we hear 20%What we see 30%What we hear + see 50%What we say ourselves 70%What we do ourselves 90%
What we do wrong 95%
Class Website
Purposes: to post class related materials and announcements
1) Class notes (HW will be on the first few pages);
2) Homework assignments and solutions; 3) Multiple choice practice problems;4) Sample exams.
https://www.physast.uga.edu/classes/phys1212/zhao
Information: Office Hours
My office hours are usually immediately after the Wed./Fri. class. If you do have questions, please stop by.
Information: Where to find HW
1. Your HW will be distributed before class starting on Thursday
2. If you missed the class, you can find you HW in small bins outside myphysics office (Room 209)
Information: Contact Me!
If you have questions and need to make an appointment with me, DO send e-mail to my e-mail address: [email protected], or call me at 542-7792
If you do not receive my e-mail reply, please do check whether you put a wrong e-mail address
For those appointments, I usually will be in Riverbend office (see map above)
Information: Lab
Lab coordinator: Mr. Tom Barnello ([email protected])
• The lab syllabus is at my course website or at http://www.physast.uga.edu/courses.
• labs start in the week of Aug. 24 and students should read through the appropriate exercise in the lab manual BEFOREcoming to lab
Please print out a copy by yourself !!!If you are retaking the course and are happy with the final lab grade you received
previously, you do not have to attend the lab. You do have to remain registered for the lab, but you do not have to attend. Please contact the Lab Coordinator (Tom Barnello--Room 310 [email protected]) if you want to exercise this option. If you would like to improve your grade, you must do ALL of the lab exercises again.
Laboratory Manual: Experiments for an Introductory Physics Course, 6th Ed.
My Research
1. Develop nanotechnology based chemical and biological sensors
2. Understand the fundamental physical and chemical processes of the sensors
3. Application of new sensors for Infectious Disease, Food Safety, Medical Diagnostics, and Environmental Detection
1. Solar energy applications for water splitting
2. Solar CO2 conversion as artificial photosynthesis
3. Develop new photocatalysts for pollution treatment and antibacterial coating
4. Design new hydrogen storage materials
5. Explore new materials for next generation Lithium ion battery
1. Design catalytic nanomotors and understand their motion mechanisms
2. Develop different catalytic nanomotors using different physical/chemical/biological principles
3. Application of nanomotors for Stroke treatment and other medical surgeries
Nanotechnology
More information can be found at http://www.physast.uga.edu/~zhaoy/
Research for Undergraduates
I always welcome undergraduate students to work in my lab. Please contact me if you are interested.
For the past 10 years, there are over 40 undergraduate students worked in my lab. They have published papers or gave presentation in different conferences.
Research Experience for Undergraduates
Apply learned knowledge to solve real world problems:
better understand your class work
Get to know professors personally, so that better
recommendation letters can be written for future career
Become a co-author of paper(s) published in peer-reviewed journals, which
will position you in a better level when compete with
other peers
Get paid through research
Examples
34
Mr. Cameron Brown published 4 papers with us, and now is a graduate student in Duke University Chemistry Dept.
Examples
35
Miss Whitney Ingram has won the first place for the poster presentation in the category of Physics in FGLSAMP (Florida-Georgia Louis Stokes Alliance for Minority Participation) National Conference in Miami, Florida. She also received the 2010 Linville L. Hendren Memorial Scholarship for Outstanding Proficiency in Physics
Opportunities
1. UGA CURO program
2. UGA SURP program
3. NSF REU project
4. Peach State Louis Stokes Alliance for Minority Participation (PSLSAMP)
5. Other support from government agencies
2014 Projects
2014 Projects
2014 Projects
2014 Projects
2014 Projects
2015 Projects
Cell phone spectrometer
Cell phone optical setup
Potential Research Projects
1. Smartphone based education: computer science, physics, engineering
2. Stroke treatment: nanostructure fabrication
3. Metamaterials: photonic structure fabrication and characterization
4. Bio detection: instrument design
5. Bacteria killing: chemical synthesis
Welcome SuggestionsI hope we can work together to make this
class a better class.
I welcome any suggestions to improve my teaching!