Rabu, 21 Mei 2014

KONVENSI SATUAN DAN DIMENSI



KONVERSI SATUAN DAN DIMENSI

 

·         Konversi Satuan
1 curie = 37,0 x 109 Bq
1 degree (angle) = 17,45329 x 10−3 rad
1 dyne = 10,0 x 10−6 N
1 electron volt = 160,2177 x 10−21 J
1 erg = 100,0 x 10−9 J
1 faraday = 96,4853 x 103 C
1 fermi = 1,0 x 10−15 m
1 foot = 304,8 x 10−3 m
1 furlong = 201,168 m 
·         Konversi Satuan
1 pound (avoirdupois) = 453,5924 x 10−3 kg
1 psi = 6,894757 x 103 Pa
1 rad = 10,0 x 10−3 Gy
1 rutherford = 1,0 x 106 Bq
1 rydberg = 2,179874 x 10−18 J
1 slug = 14,59390 kg
1 statampere = 333,5641 x 10−12 A
1 statcoulomb = 333,5641 x 10−12 C
1 statfarad = 1,112650 x 10−12 F
1 stathenry = 898,7552 x 109 H
1 statohm = 898,7552 x 109 Ω
1 statvolt = 299,7925 V
1 torr = 133,3224 Pa
1 yard = 914,4 x 10−3
·         Konversi Satuan
1 inch = 25,4 x 10−3 m
1 kilocalorie = 4,1868 x 103 J
1 kilowatt hour = 3,6 x 106 J
1 knot (international) = 514,4444 x 10−3 ms−1
1 light year = 9,46073 x 1015 m
1 litre = 1,0 x 10−3 m3
1 lumen (at 555 nm) = 1,470588 x 10−3 W
1 maxwell = 10,0 x 10−9 Wb
1 mile (international) = 1,609344 x 103 m
1 mile (nautical, int.) = 1,852 x 103 m
1 mile (nautical, UK) = 1,853184 x 103 m
1 millibar = 100,0 Pa
1 parsec = 30,85678 x 1015 m
·         Konversi Satuan
1 pound (avoirdupois) = 453,5924 x 10−3 kg
1 psi = 6,894757 x 103 Pa
1 rad = 10,0 x 10−3 Gy
1 rutherford = 1,0 x 106 Bq
1 rydberg = 2,179874 x 10−18 J
1 slug = 14,59390 kg
1 statampere = 333,5641 x 10−12 A
1 statcoulomb = 333,5641 x 10−12 C
1 statfarad = 1,112650 x 10−12 F
1 stathenry = 898,7552 x 109 H
1 statohm = 898,7552 x 109 Ω
1 statvolt = 299,7925 V
1 torr = 133,3224 Pa
1 yard = 914,4 x 10−3 m

·         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
Avogadro constant ( NA )
mol −1
1
bending moment ( Gb )
N m
L 2 M T −2
Bohr magneton ( μb )
J T −1
L2 I
Boltzmann constant ( k, kB )
J K−1
L2 M T −2 Θ −1
bulk modulus ( K )
Pa
L−1 M  T −2
capacitance ( C )
F
L−2 M−1 T 4 I 2
charge [electric] ( q )
C
T I
charge density ( ρ )
C m−3
L −3 T I
conductance ( G )
S
L −2 M−1 T 3 I 2
conductivity ( σ )
S M−1
L −3 M −1 T 3 I 2
couple ( G, T )
N m
L 2 M T −2
current ( I, i )
A
I
current density ( J, j )
A m−2
L −2 I
density ( ρ )
kg m−3
L −3 M
Physical quality (symbol)
SI units
Dimensions
panjang
M
L
Massa
Kg
M
Waktu
S
T
Suhu
K
θ
Kuat arus
A
I
Intensitas cahaya
Cd
J
Jumlah molekul zat
Mol
N
physical quantity (symbol)
SI units
dimensions
electric displacement ( D )
C m−2
L −2 T I
electric field strenght ( E )
V m−1
L M T −3 I −1
electric polarisability (α )
C m2 V −1
M −1 T −4 I 2
electric polarisation ( P )
C m −2
L −2 T I
electric potential difference ( V )
V
L 2 M T −3 I −1
energy ( E, U )
J
L 2 M T −2
energy density ( u )
J m −3
L −1 M T −2
entropy ( S )
J K−1
L 2 M T −2 Θ −1
Faraday constant ( F )
C mol −1
T I
force ( F )
N
L M T −2
frequency ( ν, f )
T −1
T −1
gravitational constant ( G )
m −3 kg −1 s −2
L −3 M −1 T −2
Hall coefficient ( RH )
m 3 C −1
L 3 T −1 I −1
Hamiltonian ( H )
J
L 2 M T −2
heat capacity ( C )
J K−1
L 2 M T −2 Θ −1
Hubble constant ( H )
s −1
T −1
 physical quantity (symbol)
SI units
dimesions
impedance ( Z )
Ω
L 2 M T −3 I −1
impulse ( I )
N s
L M T −1
inductance ( L )
H
L 2 M T −2 I −2
irradiance ( Ee )
W m −2
M T −3
illuminance ( Ev )
L −2 J
lx
Lagrangian ( L )
J
L 2 M T −2
length ( L, l )
M
L
luminous intensity ( Iv )
Cd
J



physical quantity (symbol)
SI units
dimensions
magnetic field strength ( H )
A m−1
L −1 I
magnetic flux ( Φ )
Wb
L 2 M T −2 I −1
magnetic flux density (B )
T
M  T −2 I −1
magnetic dipole moment ( m, μ )
A m 2
L −2 I
magnetic vector potential ( A )
Wb m −1
L  M T −2 I −1
magnetisation ( M )
A m−1
L −1 I
mass ( m, M )
Kg
M
mobility ( μ )
m 2 V −1 s −1
M −1 T 2 I
molar gas constant ( R )
J mol −1 K −1
L 2 M T −2 Θ −1
moment of inertia ( I )
kg m 2
L 2 M
momentum ( p )
kg m s −1
L  M T −1
number density ( n )
m −3
L −3
physical quantity (symbol)
SI units
dimensions
permeability (  μ )
H m−1
L  M T −2 I −2
permittivity ( ε )
F m−1
L −3 M −1 T 4 I 2
Planck constant ( h )
J s
L 2 M  T −1
power ( P )
W
L 2 M  T −3
poynting vector ( S )
W m −2
M  T −3
pressure ( p, P )
Pa
L −1 M  T −2
radiant intensity ( Ie )
W sr −1
L 2 M  T −3
resistance ( R )
Ω
L 2 M  T −3 I −2
physical quantity (symbol)
SI units
dimensions
shear modulus ( μ, G )
Pa
L −1 M T −2
specific heat capacity ( c )
J kg−1 K−1
L 2 T −2 Θ −1
speed (u, ν, c )
m  s −1
L  T −1
Stefan-Boltzmann constant ( σ )
W m −2 K−4
M T −3 Θ −4
stress ( σ, τ )
Pa
L −1 M T −2
surface tension ( σ, γ )
N m −1
M T −2
temperature ( T )
K
Θ
thermal conductivity ( λ )
W m −1 K−1
L  M T −3 Θ −1
time ( t )
S
T
physical quantity (symbol)
SI units
dimensions
velocity ( ν, u )
m s −1
L T −1
viscosity [dynamic] ( η, μ )
Pa s
L −1 M T −1
viscosity [kinematic] ( v )
m 2 s −1
L 2 T −1
volume ( V, ν )
m 3
L 3
wavevector ( k )
m −1
L −1
weight ( W )
N
L M T −2
work ( W )
J
L 2 M T −2
Young modulus ( E )
Pa
L −1 M T −2
Physical quantity
SI units
Dimensions
Gaya
kg m/ s2
M L T-2
Massa jenis
kg / m3
M L-3
Energi
Kg m2/s2
M L2 T-2
Tekanan
Kg / m s2
M L-1 T-2
Usaha
Kg m2 / s2
M L2 T −2
Momentum
Kg m / s
M L T −1
Impuls
Kg m / s
M L T −1
Daya
Kg m2 / s3
M L 2 T −3
Berat
Kg m / s2
M L T −2
Berat jennis
Kg / m2 s2
M L −2 T −2

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