Difference between revisions of "Herky-Jerky Box: Proof that momentum isn't conserved in Special Relativity"
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==Abstract== | ==Abstract== | ||
| − | A one-dimensional box is posited with identical point masses synchronously and elastically hitting each other and opposite ends of the box. From a moving frame, Special-Relativistic kinematics says the center of mass CM of the box (''exclusive of the point masses'') moves uniformly, but momentum conservation says CM moves jerkily. Hence Special Relativity does not support momentum conservation. | + | A one-dimensional box is posited with identical point masses synchronously and elastically hitting each other and opposite ends of the box. From a moving frame, Special-Relativistic kinematics says the center of mass CM of the box (''exclusive of the point masses'') moves uniformly, but momentum conservation says CM moves jerkily. Hence Special Relativity does not support momentum conservation. |
| − | [[Category:Relativity]] | + | [[Category:Scientific Paper|herky-jerky box proof momentum isn 't conserved special relativity]] |
| + | |||
| + | [[Category:Relativity|herky-jerky box proof momentum isn 't conserved special relativity]] | ||
Latest revision as of 19:36, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Herky-Jerky Box: Proof that momentum isn\'t conserved in Special Relativity |
| Author(s) | Michael H Brill |
| Keywords | Special Relativity, momentum, conservation, paradox |
| Published | 2010 |
| Journal | Physics Essays |
| Volume | 23 |
| Number | 2 |
| No. of pages | 1 |
| Pages | TBD |
Abstract
A one-dimensional box is posited with identical point masses synchronously and elastically hitting each other and opposite ends of the box. From a moving frame, Special-Relativistic kinematics says the center of mass CM of the box (exclusive of the point masses) moves uniformly, but momentum conservation says CM moves jerkily. Hence Special Relativity does not support momentum conservation.
