proportionalTo
P9780
predicate
Indicates that one quantity varies in constant ratio to another, so changes in one are directly reflected by proportional changes in the other.
All labels observed (4)
| Label | Occurrences |
|---|---|
| proportionalTo canonical | 17 |
| expressesProportionality | 2 |
| proportionality | 1 |
| scalesLinearlyWith | 1 |
Sample triples (21)
| Subject | Object |
|---|---|
| law of universal gravitation | product of the interacting masses ⓘ |
| Schwarzschild radius | mass of the object ⓘ |
| Schwarzschild radius | mass of black hole via predicate surface "scalesLinearlyWith" ⓘ |
| Stefan–Boltzmann law | fourth power of absolute temperature ⓘ |
| Eddington limit | mass of the object ⓘ |
| Bohr radius | reduced Planck constant squared ⓘ |
| Bohr radius | vacuum permittivity ⓘ |
| Thomson cross section | square of classical electron radius ⓘ |
| Saffman lift force | square root of shear rate magnitude ⓘ |
| Saffman lift force | fluid viscosity to the power 1/2 ⓘ |
| Saffman lift force | fluid density ⓘ |
| Saffman lift force | particle diameter squared ⓘ |
| Saffman lift force | slip velocity between particle and fluid ⓘ |
| Ohm's law for electrical conduction | current is directly proportional to voltage via predicate surface "expressesProportionality" ⓘ |
| Ohm's law for electrical conduction | current is inversely proportional to resistance via predicate surface "expressesProportionality" ⓘ |
| Gay-Lussac's law | pressure is directly proportional to absolute temperature via predicate surface "proportionality" ⓘ |
| Biot–Savart law | electric current I ⓘ |
| Dingle temperature | Landau level broadening ⓘ |
| Joule’s law of heating | square of current ⓘ |
| Joule’s law of heating | resistance ⓘ |
| Joule’s law of heating | time of current flow ⓘ |