| Revision as of 13:13, 16 August 2002 editDrBob (talk | contribs)3,376 edits Improved summaries, link Newton to the man not the unit← Previous edit | Revision as of 06:20, 18 August 2002 edit undoFonzy (talk | contribs)7,716 editsm ThermodynamicsNext edit → | ||
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| * ] (current and voltage laws) | * ] (current and voltage laws) | ||
| * ] (electric and magnetic fields: in ] ∇·<b>E</b> = 0, ∇·<b>B</b> = 0, ∇×<b>E</b> = -∂<b>B</b>/∂''t'', ∇×<b>B</b> = ''c<sup>-2</sup>''∂<b>E</b>/∂''t'') | * ] (electric and magnetic fields: in ] ∇·<b>E</b> = 0, ∇·<b>B</b> = 0, ∇×<b>E</b> = -∂<b>B</b>/∂''t'', ∇×<b>B</b> = ''c<sup>-2</sup>''∂<b>E</b>/∂''t'') | ||
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Revision as of 06:20, 18 August 2002
This is a list of physical "laws" discovered by science. Some might say that the only true "laws" of science are those of the scientific method.
- Boyle's Law (pressure and volume of ideal gas)
- Charles & Gay-Lussac (gases expand equally with the same change of temperature)
- Einstein
- Relativity E=mc (Energy=mass×speed of light)
- Laws of Kepler (planetary motion)
- Beer-Lambert (light absorption)
- Newton
- Newton's laws of motion (inertia, F=ma, action and reaction)
- Law of heat conduction
- Ohm's Law (V=IR)
- Kirchhoff's Laws (current and voltage laws)
- Maxwell's equations (electric and magnetic fields: in vacuum ∇·E = 0, ∇·B = 0, ∇×E = -∂B/∂t, ∇×B = c∂E/∂t)
- Thermodynamics