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- #REDIRECT[[inverse-square law]]31 bytes (3 words) - 21:45, 14 August 2007
- In [[physics]], an '''inverse-square law''' is any law that states that some quantity is inversely proportional to t2 KB (260 words) - 22:48, 18 December 2021
- 12 bytes (1 word) - 22:00, 21 November 2007
- 198 bytes (29 words) - 03:06, 4 September 2009
- Auto-populated based on [[Special:WhatLinksHere/Inverse-square law]]. Needs checking by a human.607 bytes (78 words) - 17:31, 11 January 2010
Page text matches
- #REDIRECT[[inverse-square law]]31 bytes (3 words) - 21:45, 14 August 2007
- An inverse-square law for the force between two magnetic monopoles.103 bytes (13 words) - 10:46, 23 June 2008
- Auto-populated based on [[Special:WhatLinksHere/Inverse-square law]]. Needs checking by a human.607 bytes (78 words) - 17:31, 11 January 2010
- In [[physics]], an '''inverse-square law''' is any law that states that some quantity is inversely proportional to t2 KB (260 words) - 22:48, 18 December 2021
- ...) was a French physicist. He is known for [[Coulomb's law]], which is an [[inverse-square law]] for electrostatic charges very similar to Newton's [[gravitation|gravitat2 KB (292 words) - 18:30, 29 June 2009
- {{r|Inverse-square law}}1 KB (142 words) - 17:58, 17 April 2010
- {{r|Inverse-square law}}1 KB (139 words) - 16:58, 11 January 2010
- ...departure and derive Gauss' law from it. Doing this, one finds that the [[inverse-square law|inverse-square distance]] dependence in Coulomb's law exactly cancels the d6 KB (988 words) - 17:21, 2 November 2021
- {{r|Inverse-square law}}2 KB (237 words) - 09:03, 4 May 2024
- {{r|Inverse-square law}}2 KB (302 words) - 07:57, 22 June 2024
- ...]]. The law was first given by [[Charles-Augustin de Coulomb]]. It is an [[inverse-square law]] for two electric charges very similar to Newton's [[gravitation|gravitati13 KB (2,015 words) - 10:16, 21 October 2021
- ...math>\pi r^2</math> for the area of a circle), [[Isaac Newton|Newton]]'s [[inverse-square law]] of gravity, and so on. However, the term is typically used in the contex9 KB (1,454 words) - 08:23, 18 October 2013
- 4 KB (617 words) - 12:36, 9 January 2021
- ...\mathbf{r}}</math> has dimension length, we see that this equation is an [[Inverse-square law]].11 KB (1,702 words) - 13:31, 22 April 2011
- ...n is given by [[Isaac Newton|Newton]]'s gravitational force, which is an [[inverse-square law]]. In [[general relativity]], gravitation arises out of spacetime being cu ...aac Newton]] published the famous ''[[Principia]]'', which presented the [[inverse-square law]] of universal gravitation. In his own words he described the ideas that c17 KB (2,543 words) - 19:59, 19 March 2023
- ...e discovered the law of [[gravitation]] (attraction is proportional with [[inverse-square law|inverse distance squared]]). He verified his conjecture approximately by a17 KB (2,625 words) - 19:47, 19 March 2023
- ...ohannes Kepler|Kepler]]'s third law, gave rise to the formulation of the [[inverse-square law]] of [[gravitation|gravitational attraction]] by [[Christopher Wren]], [[Ro13 KB (2,050 words) - 03:41, 17 October 2013
- 36 KB (5,312 words) - 09:34, 19 March 2024
- 76 KB (11,605 words) - 21:48, 1 September 2020