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 ) m 2 kg s 1 L 2 M T 1 angular speed ( ω ) rad s 1 T 1 area ( A, S ) m 2 L 2 Avogadro constant ( N A ) mol 1 1 bending moment ( G b ) N m L 2 M T 2 Bohr magneton ( μ b ) J T 1 L 2 I Boltzmann constant ( k, k B ) J K 1 L 2 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 Konversi Satuan 1 curie = 37,0 x 10 9 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 10 3 C 1 fermi = 1,0 x 10 15 m 1 foot = 304,8 x 10 3 m 1 furlong = 201,168 m
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 m 2 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 ( R H ) 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 Konversi Satuan 1 pound (avoirdupois) = 453,5924 x 10 3 kg 1 psi = 6,894757 x 10 3 Pa 1 rad = 10,0 x 10 3 Gy 1 rutherford = 1,0 x 10 6 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 10 9 H 1 statohm = 898,7552 x 10 9 Ω 1 statvolt = 299,7925 V 1 torr = 133,3224 Pa 1 yard = 914,4 x 10 3 m
physical quantity (symbol) SI units dimensions impedance ( Z ) impulse ( I ) inductance ( L ) Ω N s H L 2 M T 3 I 1 L M T 1 L 2 M T 2 I 2 irradiance ( E e ) W m 2 M T 3 illuminance ( E v ) L 2 J lx Lagrangian ( L ) J L 2 M T 2 length ( L, l ) m L luminous intensity ( I v ) cd J Conversion Factors 1 inch = 25,4 x 10 3 m 1 kilocalorie = 4,1868 x 10 3 J 1 kilowatt hour = 3,6 x 10 6 J 1 knot (international) = 514,4444 x 10 3 ms 1 1 light year = 9,46073 x 10 15 m 1 litre = 1,0 x 10 3 m 3 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 10 3 m 1 mile (nautical, int.) = 1,852 x 10 3 m 1 mile (nautical, UK) = 1,853184 x 10 3 m 1 millibar = 100,0 Pa 1 parsec = 30,85678 x 10 15 m 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 Conversion Factors 1 pound (avoirdupois) = 453,5924 x 10 3 kg 1 psi = 6,894757 x 10 3 Pa 1 rad = 10,0 x 10 3 Gy 1 rutherford = 1,0 x 10 6 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 10 9 H 1 statohm = 898,7552 x 10 9 Ω 1 statvolt = 299,7925 V 1 torr = 133,3224 Pa 1 yard = 914,4 x 10 3 m Alphabetical from P-R. 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 ) power ( P ) J s W L 2 M T 1 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 ( I e ) W sr 1 L 2 M T 3 resistance ( R ) SI Prefixes Ω L 2 M T 3 I 2 10 24 yotta Y 10 24 yocto y 10 21 zetta Z 10 21 zepto z
10 18 exa E 10 18 atto a 10 15 peta P 10 15 femto f 10 12 tera T 10 12 pico p 10 9 giga G 10 9 nano n 10 6 mega M 10 6 micro μ 10 3 kilo k 10 3 milli m 10 2 hecto h 10 2 centi c 10 1 deca da 10 1 deci d Alphabetical from S-T. 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 SI Prefixes time ( t ) s T 10 24 yotta Y 10 24 yocto y 10 21 zetta Z 10 21 zepto z 10 18 exa E 10 18 atto a 10 15 peta P 10 15 femto f 10 12 tera T 10 12 pico p 10 9 giga G 10 9 nano n 10 6 mega M 10 6 micro μ 10 3 kilo k 10 3 milli m
10 2 hecto h 10 2 centi c 10 1 deca da 10 1 deci d 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 ) Young modulus ( E ) J Pa L 2 M T 2 L 1 M T 2 SI Prefixes 10 24 yotta Y 10 24 yocto y 10 21 zetta Z 10 21 zepto z 10 18 exa E 10 18 atto a 10 15 peta P 10 15 femto f 10 12 tera T 10 12 pico p 10 9 giga G 10 9 nano n 10 6 mega M 10 6 micro μ 10 3 kilo k 10 3 milli m 10 2 hecto h 10 2 centi c 10 1 deca da 10 1 deci d Ikuti Cara-cara ini biar mengerti tabel di atas di dapat dari mana Rumus ---> Satuan --> Dimensi dan ingat : massa --> kg --> M ( dari Mass kali?! & jangan kliru Meter)
panjang --> m --> L ( dari Length kali ) waktu --> s --> T ( dari Time kali ) Gaya massa x percepatan--> (kg) (m/s 2 ) --> M L T 2 Massa Jenis massa / volume --> (kg)/(m 3 ) --> M L 3 Energi massa x percepatan gravitasi x tinggi --> (kg)(m/s 2 )(m) --> M L 2 T 2 Tekanan gaya/luas ---> (kg)(m/s 2 )/m 2 --> M L 1 T 2 Usaha gaya x perpindahan--> (kg)(m/s 2 )(m)--> M L 2 T 2 Momentum massa x kecepatan --> (kg)(m/s) --> M L T 1 Impuls gaya x selang waktu --> (kg)(m/s 2 )(s) --> M L T 1 Daya Usaha/waktu --> (kg)(m/s 2 )(m)/(s) - -> M L 2 T 3 Berat massa x percepatan gravitasi --> (kg)(m/s 2 ) --> M L T 2 Berat Jenis berat/volume --> (kg)(m/s 2 )/(m 3 ) --> M L 2 T 2 Beberapa besaran memiliki kesamaan dimensi, seperti Usaha dan Energi, Gaya dan Berat, Impuls dan momentum. Untuk soal yang sedikit lebih rumit biasanya ditampilkan rumusnya, tinggal otak-atik, pindah kanan kiri, atas bawah, masukkan satuannya baru dikonvert ke dimensi. Sekedar Contoh: Diberikan formula gaya gravitasi antara dua benda sebagai berikut dengan F adalah gaya (Newton) m 1 dan m 2 adalah massa kedua buah benda (kg), r adalah jarak kedua benda (m) dan G adalah suatu konstanta yang akan dicari dimensinya. Dari rumus diatas setelah dibolak-balik didapatkan bahwa masukkan satuannya bawa ke kg, m dan s. Untuk satuan gaya lihat daftar diatas, didapat Contoh berikutnya: Diberikan persamaan gaya pegas F = k Δ X Dimana F adalah gaya pegas (Newton), Δ X adalah pertambahan panjang pegas (meter)
dan k adalah konstanta pegas. Dimensi konstanta pegas?