A number of derived SI units have its own name and symbol.
| Derived quantity | SI derived unit |
| | | |
| name | symbol | derivation |
| plane angle | radian | rad | m · m–1 = 1 |
| solid angle | steradian | sr | m2 · m–2 = 1 |
| frequency | hertz | Hz | s–1 |
| force | newton | N | m · kg · s–2 |
| pressure, stress | pascal | Pa | m–1 · kg · s–2 |
| energy, work, quantity of heat | joule | J | N · m = m2 · kg · s–2 |
| power, radiant flux | watt | W | J/s = m2 · kg · s–3 |
| electric charge, quantity of electricity | coulomb | C | s · A |
| electric potential difference, electromotive force | volt | V | W/A = m2 · kg · s–3 · A–1 |
| capacitance | farad | F | C/V = m–2 · kg–1 · s4 · A2 |
| electric resistance | ohm | Ω | V/A = m2 · kg · s–3 · A–2 |
| electric conductance | siemens | S | A/V = m–2 · kg–1 · s3 · A2 |
| magnetic flux | weber | Wb | V · s = m2 · kg · s–2 · A–1 |
| magnetic flux density | tesla | T | Wb/m2 = kg · s–2 · A–1 |
| inductance | henry | H | Wb/A = m2 · kg · s–2 · A–2 |
| Celsius temperature | degree Celsius | °C | K |
| luminous flux | lumen | lm | cd · sr = m2 · m–2 · cd = cd |
| illuminance | lux | lx | lm/m2 = m2 · m–4 · cd = m–2 · cd |
| activity (referred to a radionuclide) | becquerel | Bq | s–1 |
| absorbed dose, specific energy (imparted), kerma | gray | Gy | J/kg = m2 · s–2 |
dose equivalent,
ambient dose equivalent,
directional dose equivalent,
personal dose equivalent,
organ equivalent dose | sievert | Sv | J/kg = m2 · s–2 |
| catalytic activity | katal | kat | s–1 · mol |
