Dimentions
Quantity | Unit | Dimension |
Velocity/Speed (v) | m/s | [M⁰L¹T⁻¹] |
Acceleration (a) | m/s² | [M⁰L¹T⁻²] |
Momentum (P) | kg-m/s | [M¹L¹T⁻¹] |
Impulse (I) | N-s or kg-m/s | [M¹L¹T⁻¹] |
Force (F) | Newton (N) | [M¹L¹T⁻²] |
Pressure (P) | Pascal (Pa) | [M¹L⁻¹T⁻²] |
Kinetic Energy (EK) | Joule (J) | [M¹L²T⁻²] |
Power (P) | Watt (W) or J/s | [M¹L²T⁻³] |
Density (d) | kg/m³ | [M¹L⁻³T⁰] |
Angular Displacement (θ) | Radian (rad) | [M⁰L⁰T⁰] |
Angular Velocity (ω) | rad/s | [M⁰L⁰T⁻¹] |
Angular Acceleration (α) | rad/s² | [M⁰L⁰T⁻²] |
Moment of Inertia (I) | kg-m² | [M¹L²T⁰] |
Torque (τ) | N-m | [M¹L²T⁻²] |
Angular Momentum (L) | J-s | [M¹L²T⁻¹] |
Force Constant/Spring Constant (k) | N/m | [M¹L⁰T⁻²] |
Gravitational Constant (G) | N-m²/kg² | [M⁻¹L³T⁻²] |
Intensity of Gravitational Field (Eg) | N/kg | [M⁰L¹T⁻²] |
Gravitational Potential (Vg) | J/kg | [M⁰L²T⁻²] |
Surface Tension (T) | N/m or J/m² | [M¹L⁰T⁻²] |
Velocity Gradient (Vg) | s⁻¹ | [M⁰L⁰T⁻¹] |
Coefficient of Viscosity (η) | kg/m-s | [M¹L⁻¹T⁻¹] |
Stress | N/m² | [M¹L⁻¹T⁻²] |
Strain | No unit | [M⁰L⁰T⁰] |
Modulus of Elasticity (E) | N/m² | [M¹L⁻¹T⁻²] |
Poisson's Ratio (σ) | No unit | [M⁰L⁰T⁰] |
Time Period (T) | Second (s) | [M⁰L⁰T¹] |
Frequency (n) | Hertz (Hz) | [M⁰L⁰T⁻¹] |
Temperature (T) | Kelvin (K) | [M⁰L⁰T⁰θ¹] |
Heat (Q) | Joule (J) | [M¹L²T⁻²] |
Specific Heat (c) | J/kg-K | [M⁰L²T⁻²θ⁻¹] |
Thermal Capacity | J/K | [M¹L²T⁻²θ⁻¹] |
Latent Heat (L) | J/kg | [M¹L²T⁻²] |
Gas Constant (R) | J/mol-K | [M¹L²T⁻²θ⁻¹] |
Boltzmann Constant (k) | J/K | [M¹L²T⁻²θ⁻¹] |
Coefficient of Thermal Conductivity (K) | J/m-s-K | [M¹L¹T⁻³θ⁻¹] |
Stefan's Constant (σ) | W/m²-K⁴ | [M¹L⁰T⁻³θ⁻⁴] |
Wien's Constant (b) | m-K | [M⁰L¹T⁰θ¹] |
Planck's Constant (h) | J-s | [M¹L²T⁻¹] |
Coefficient of Linear Expansion (α) | K⁻¹ | [M⁰L⁰T⁰θ⁻¹] |
Mechanical Equivalent of Heat (J) | J/Calorie | [M⁰L⁰T⁰] |
Vander Waal's Constant (a) | N-m⁴ | [M¹L⁵T⁻²] |
Vander Waal's Constant (b) | m³ | [M⁰L³T⁰] |
Electric Charge (q) | Coulomb (C) | [M⁰L⁰T¹A¹] |
Electric Current (I) | Ampere (A) | [M⁰L⁰T⁰A¹] |
Capacitance (C) | Farad (F) | [M⁻¹L⁻²T⁴A²] |
Electric Potential (V) | Volt (V) | [M¹L²T⁻³A⁻¹] |
Permittivity of Free Space (ε₀) | N-m²/C² | [M⁻¹L⁻³T⁴A²] |
Dielectric Constant (K) | No unit | [M⁰L⁰T⁰] |
Resistance (R) | Ohm (Ω) | [M¹L²T⁻³A⁻²] |
Resistivity (ρ) | Ohm-meter (Ω-m) | [M¹L³T⁻³A⁻²] |
Coefficient of Self-Induction (L) | Henry (H) | [M¹L²T⁻²A⁻²] |
Magnetic Flux (Φ) | Weber (Wb) | [M¹L²T⁻²A⁻¹] |
Magnetic Induction (B) | Tesla (T) | [M¹L⁰T⁻²A⁻¹] |
Magnetic Intensity (H) | A/m | [M⁰L⁻¹T⁰A¹] |
Magnetic Dipole Moment (M) | A-m² | [M⁰L²T⁰A¹] |
Permeability of Free Space (μ₀) | N/A² or H/m | [M¹L¹T⁻²A⁻²] |
Surface Charge Density (σ) | C/m² | [M⁰L⁻²T¹A¹] |
Electric Dipole Moment (p) | C-m | [M⁰L¹T¹A¹] |
Conductance (G) | Siemens (S) | [M⁻¹L⁻²T³A²] |
Conductivity (σ) | S/m | [M⁻¹L⁻³T³A²] |
Current Density (J) | A/m² | [M⁰L⁻²T⁰A¹] |
Intensity of Electric Field (E) | V/m or N/C | [M¹L¹T⁻³A⁻¹] |
Rydberg Constant (R) | m⁻¹ | [M⁰L⁻¹T⁰] |