tabel dimensi

8/18/2019 Tabel Dimensi

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Tabel Dimensi

physical quantity (symbol) SI units dimensions

acceleration ( a ) m s−2 L T −2

action ( S ) J s L 2 M T −1

angular momentum ( L, J ) m2 kg s −1 L 2 M T −1

angular speed ( ω ) rad s −1 T −1

area ( A, S ) m2 L 2

Aogadro constant ( N A ) mol −1 1

bending moment ( Gb ) ! m L 2 M T −2

"o#r magneton ( μb ) J T−1 L2 $

"olt%mann constant ( k, k B ) J & −1 L2 M T −2 ' −1

bulk modulus ( K ) a L−1 M T −2

capacitance ( C ) L−2 M−1 T * $ 2

c#arge +electric ( q ) - T $

c#arge densit. ( ρ ) - m−/ L −/ T $

conductance ( G ) S L −2 M−1 T / $ 2

conductiit. ( σ ) S M−1 L −/ M −1 T / $ 2

couple ( G, T ) ! m L 2 M T −2

current ( I, i ) A $

current densit. ( J, j ) A m−2 L −2 $

densit. ( ρ ) kg m−/ L −/ M

Konversi Satuan1 curie 0 /, 3 14 "5


2/5

1 degree (angle) 0 1,*6/24 3 1−/ rad

1 d.ne 0 1, 3 1−7 !

1 electron olt 0 17,21 3 1−21 J

1 erg 0 1, 3 1−4 J

1 8arada. 0 47,*96/ 3 1/ -

1 8ermi 0 1, 3 1−16 m1 8oot 0 /*,9 3 1−/ m

1 8urlong 0 21,179 m


electric displacement ( D ) - m−2 L −2 T $

electric 8ield streng#t ( E ) : m−1 L M T −/ $ −1

electric polarisabilit. (α ) - m2 : −1 M −1 T −* $ 2

electric polarisation ( P ) - m −2 L −2 T $

electric potential di88erence ( V ) : L 2 M T −/ $ −1

energ. ( E, U ) J L 2 M T −2

energ. densit. ( u ) J m −/ L −1 M T −2

entrop. ( S ) J & −1 L 2 M T −2 ' −1

arada. constant ( F ) - mol −1 T $

8orce ( F ) ! L M T −2

8re5uenc. ( , ! ) T −1 T −1

graitational constant ( G ) m −/ kg −1 s −2 L −/ M −1 T −2

;all coe88icient ( " # ) m/ - −1 L / T −1 $ −1

;amiltonian ( # ) J L 2 M T −2

#eat capacit. ( C ) J & −1 L 2 M T −2 ' −1

;ubble constant ( # ) s −1 T −1

Konversi Satuan

1 pound (aoirdupois) 0 *6/,642* 3 1−/ kg

1 psi 0 7,94*6 3 1/ a

1 rad 0 1, 3 1−/


3/5

1 statampere 0 ///,67*1 3 1−12 A

1 statcoulomb 0 ///,67*1 3 1−12 -

1 stat8arad 0 1,11276 3 1−12

1 stat#enr. 0 949,662 3 14 ;

1 stato#m 0 949,662 3 14 =

1 statolt 0 244,426 :1 torr 0 1//,/22* a

1 .ard 0 41*,* 3 1−/ m


impedance ( $ ) = L 2 M T −/ $ −1

impulse ( I ) ! s L M T −1

inductance ( L ) ; L 2 M T −2 $ −2

irradiance ( E % ) > m−2 M T −/

illuminance ( E & ) L−2 J l3

Lagrangian ( L ) J L 2 M T −2

lengt# ( L, ' ) m L

luminous intensit. ( I & )cd J

Conversion Factors

1 inc# 0 26,* 3 1−/ m

1 kilocalorie 0 *,1979 3 1/ J

1 kilo?att #our 0 /,7 3 17 J

1 knot (international) 0 61*,**** 3 1−/ ms−1

1 lig#t .ear 0 4,*7/ 3 116 m

1 litre 0 1, 3 1−/ m/

1 lumen (at 666 nm) 0 1,*699 3 1−/ >

1 ma3?ell 0 1, 3 1

−4

>b1 mile (international) 0 1,74/** 3 1/ m

1 mile (nautical, int@) 0 1,962 3 1/ m

1 mile (nautical, &) 0 1,96/19* 3 1/ m

1 millibar 0 1, a

1 parsec 0 /,9679 3 116 m



4/5

magnetic 8ield strengt# ( # ) A m−1 L −1 $

magnetic 8lu3 ( Φ ) >b L 2 M T −2 $ −1

magnetic 8lu3 densit. ( B ) T M T −2 $ −1

magnetic dipole moment ( (, μ ) A m 2 L −2 $

magnetic ector potential ( A ) >b m −1 L M T −2 $ −1

magnetisation ( ) ) A m−1 L −1 $

mass ( (, ) ) kg M

mobilit. ( μ ) m 2 : −1 s −1 M −1 T 2 $

molar gas constant ( " ) J mol −1 & −1 L 2 M T −2 ' −1

moment o8 inertia ( I ) kg m 2 L 2 M

momentum ( * ) kg m s −1 L M T −1

number densit. ( + ) m −/ L −/

Conversion Factors

1 pound (aoirdupois) 0 *6/,642* 3 1−/ kg

1 psi 0 7,94*6 3 1/ a

1 rad 0 1, 3 1−/


5/5

po.nting ector ( S ) > m −2 M T −/

pressure ( *, P ) a L −1 M T −2

radiant intensit. ( I % ) > sr−1 L 2 M T −/

resistance ( " ) = L 2 M T −/ $ −2

SI Prefixes

12* .otta 1−2* .octo .

121 %etta E 1−21 %epto %

119 e3a F 1−19 atto a

1

16

peta 1

−16

8emto 8 112 tera T 1−12 pico p

14 giga < 1−4 nano n

17 mega M 1−7 micro G

1/ kilo k 1−/ milli m

12 #ecto # 1−2 centi c

11 deca da 1−1 deci d

Alp#abetical 8rom SBT@


s#ear modulus ( μ, G ) a L −1 M T −2

speci8ic #eat capacit. ( - ) J kg−1 & −1 L 2 T −2 ' −1

speed (u, , - ) m s −1 L T −1

Ste8anB"olt%mann constant ( σ ) > m −2 & −* M T −/ ' −*

stress ( σ, . ) a L −1 M T −2

sur8ace tension ( σ, / ) ! m −1 M T −2

temperature ( T ) & '

t#ermal conductiit. ( 0 ) > m −1 & −1 L M T −/ ' −1

time ( 1 ) s T

tabel dimensi

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