Fisika kelas 10 : Daftar Dimensi Satuan Internasional

Fisika kelas 10 : Daftar Dimensi Satuan Internasional

Berikut adalah dimensi yang sering dipakai dalam pembelajaran kelas X SMA jurusan IPA 
A-D

physical quantity (symbol)

SI units

dimensions
acceleration ( a )m s−2L T −2
action ( S )J sL 2 M T −1
angular momentum ( L, J )m2 kg s−1L 2 M T −1
angular speed ( ω )rad s −1T −1
area ( A, S )m22
Avogadro constant ( NA )mol −11
bending moment ( Gb )N mL 2 M T −2
Bohr magneton (μb )J T −1L2 I
Boltzmann constant ( k, kB )J K−1L2 M T −2 Θ −1
bulk modulus ( K )PaL−1 M T −2
capacitance ( C )FL−2 M−1 T 4 I 2
charge [electric] ( q )CT I
charge density ( ρ )C m−3L −3 T I
conductance ( G )SL −2 M−1 T 3 I2
conductivity ( σ )S M−1−3 M −1 T 3 I2
couple ( G, T )N mL 2 M T −2
current ( I, i )AI
current density ( J, j )A m−2−2 I
density ( ρ )kg m−3L −3 M

E-H.


physical quantity (symbol)

SI units

dimensions
electric displacement ( )C m−2−2 T I
electric field strenght ( )V m−1L M T −3 I −1
electric polarisability (α )C m2 V −1−1 T −4 I 2
electric polarisation ( )C m −2−2 T I
electric potential difference (V )V2 M T −3 I−1
energy ( E, U )J2 M T −2
energy density ( u )J m −3−1 M T −2
entropy ( )J K−12 M T −2 Θ−1
Faraday constant ( )C mol −1T I
force ( )NL M T −2
frequency ( ν, f )−1−1
gravitational constant ( )−3 kg −1 s−2−3 M −1 T−2
Hall coefficient ( R)3 C −13 T −1 −1
Hamiltonian ( H )J2 M T −2
heat capacity ( C )J K−12 M T −2 Θ−1
Hubble constant ( H )−1−1

I-L.


physical quantity (symbol)

SI units

dimensions
impedance ( )Ω2 M T −3 −1
impulse ( )N sL M T −1
inductance ( L )H2 M T −2 −2
irradiance ( Ee )W m −2M T −3
illuminance ( Ev )−2 Jlx
Lagrangian ( L )J2 M T −2
length ( L, l )mL
luminous intensity ( Iv )cdJ
M-N.


physical quantity (symbol)

SI units

dimensions
magnetic field strength ( )A m−1−1 I
magnetic flux ( Φ )Wb2 M T −2 −1
magnetic flux density ()TM T −2 I −1
magnetic dipole moment ( m, μ )A m 2−2 I
magnetic vector potential ( A)Wb m −1L M T −2 −1
magnetisation ( M )A m−1−1 I
mass ( m, M )kgM
mobility ( μ )m 2 V −1 s−1−1 T 2 I
molar gas constant ( )J mol −1 K−12 M T −2 Θ−1
moment of inertia ( )kg m 22 M
momentum ( )kg m s −1L M T −1
number density ( )−3−3
 P-R.


physical quantity (symbol)

SI units

dimensions
permeability ( μ)H m−1L M T −2 −2
permittivity ( ε )F m−1−3 M −1 T 2
Planck constant ( h )J s2 M T −1
power ( )W2 M T −3
poynting vector ( S )W m −2M T −3
pressure ( p, P )Pa−1 M T −2
radiant intensity ( Ie )W sr −12 M T −3
resistance ( )Ω2 M T −3 I −2
S-T.


physical quantity (symbol)

SI units

dimensions
shear modulus ( μ, G )Pa−1 M T −2
specific heat capacity ( )J kg−1 K−12 T −2 Θ −1
speed (u, ν, c )m s −1 
L T −1 
Stefan-Boltzmann constant ( σ)W m −2 K−4M T −3 Θ −4
stress ( σ, τ )Pa−1 M T −2
surface tension ( σ, γ )N m −1M T −2
temperature ( T )KΘ
thermal conductivity ( λ )W m −1 K−1L M T −3 Θ−1
time ( )sT
V-Y.


physical quantity (symbol)

SI units

dimensions
velocity ( ν, u )m s −1 
L T −1 
viscosity [dynamic] ( η, μ )Pa s−1 M T −1
viscosity [kinematic] ( )2 s −1 
2 T −1 
volume ( V, ν )33
wavevector ( k )−1−1
weight ( W )NL M T −2
work ( W )J2 M T −2
Young modulus ( )Pa−1 M T −2
-marthayunanda-




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