Difference between revisions of "The Speed of Light, a Fundamental Universal Constant, is an Uncertain Quantity in the Sub-classical Range of Measurements"
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− | The speed of light, which has been experimentally shown to have a specific value to a very high degree of accuracy over classical distances, becomes increasingly uncertain over increasingly small scales of measurement. While this constant plays a fundamental role in all of subclassical physics, the Heisenberg uncertainty principle generates an increasingly large uncertainty in its value in these very same areas of physics.[[Category:Scientific Paper]] | + | The speed of light, which has been experimentally shown to have a specific value to a very high degree of accuracy over classical distances, becomes increasingly uncertain over increasingly small scales of measurement. While this constant plays a fundamental role in all of subclassical physics, the Heisenberg uncertainty principle generates an increasingly large uncertainty in its value in these very same areas of physics. |
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+ | [[Category:Scientific Paper|speed light fundamental universal constant uncertain quantity sub-classical range measurements]] |
Latest revision as of 11:27, 1 January 2017
Scientific Paper | |
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Title | The Speed of Light, a Fundamental Universal Constant, is an Uncertain Quantity in the Sub-classical Range of Measurements |
Author(s) | Yochanan Fein |
Keywords | {{{keywords}}} |
Published | 1997 |
Journal | None |
Abstract
The speed of light, which has been experimentally shown to have a specific value to a very high degree of accuracy over classical distances, becomes increasingly uncertain over increasingly small scales of measurement. While this constant plays a fundamental role in all of subclassical physics, the Heisenberg uncertainty principle generates an increasingly large uncertainty in its value in these very same areas of physics.