The Fine Structure Constant: Difference between revisions
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</blockquote> Where MMA is the Magnetic Moment Anomaly (1.001165923) and k is the dielectric constant of the bulk material in which its measurement is made. With air, k ~= 1.0006, thus we get 137.03523, accurate to 0.0005%. The remaining inaccuracy can be attributed to that of the measurement of k... | </blockquote> Where MMA is the Magnetic Moment Anomaly (1.001165923) and k is the dielectric constant of the bulk material in which its measurement is made. With air, k ~= 1.0006, thus we get 137.03523, accurate to 0.0005%. The remaining inaccuracy can be attributed to that of the measurement of k... | ||
[[Category:Scientific Paper]] | [[Category:Scientific Paper|fine structure constant]] | ||
Latest revision as of 13:15, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | The Fine Structure Constant |
| Author(s) | Paul A Stowe |
| Keywords | Fine Structure Constant |
| Published | 2000 |
| Journal | None |
Abstract
And, an alternate theory to QED (classical Continuum Mechanics based) suggests a variable FSC, given by the equation:
1/FSC = 2 SQRT (3/k) * (2Pi*MMA)2
Where MMA is the Magnetic Moment Anomaly (1.001165923) and k is the dielectric constant of the bulk material in which its measurement is made. With air, k ~= 1.0006, thus we get 137.03523, accurate to 0.0005%. The remaining inaccuracy can be attributed to that of the measurement of k...