The Atomic Pendulum: Difference between revisions
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Capacitance C inverse represents acceleration of an oscillator formed by pair production. Inductance L is the radial length of the photon sphere that undergoes radial pulsation by 137 cubed under eVe ionization energy stress. L is equal to the length of a string of a pendulum. Twice L indicates the mass of a photon that clusters to form the different elements of the periodic table. L is the radial length of 2 photons that are involved in the gamma factor of Einsteins equations described in another paper - The Gamma Factor Resolved. Frequency f x 25812.6087 = acceleration = voltage = 1/capacitance | Capacitance C inverse represents acceleration of an oscillator formed by pair production. Inductance L is the radial length of the photon sphere that undergoes radial pulsation by 137 cubed under eVe ionization energy stress. L is equal to the length of a string of a pendulum. Twice L indicates the mass of a photon that clusters to form the different elements of the periodic table. L is the radial length of 2 photons that are involved in the gamma factor of Einsteins equations described in another paper - The Gamma Factor Resolved. Frequency f x 25812.6087 = acceleration = voltage = 1/capacitance | ||
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[[Category:Scientific Paper|atomic pendulum]] | |||
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Revision as of 13:10, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | The Atomic Pendulum |
| Read in full | Link to paper |
| Author(s) | Francis Viren Fernandes |
| Keywords | Pendulum, Frequency, Gravity, Voltage, Current, Inductance, Capacitance |
| Published | 2011 |
| Journal | None |
Read the full paper here
Abstract
Capacitance C inverse represents acceleration of an oscillator formed by pair production. Inductance L is the radial length of the photon sphere that undergoes radial pulsation by 137 cubed under eVe ionization energy stress. L is equal to the length of a string of a pendulum. Twice L indicates the mass of a photon that clusters to form the different elements of the periodic table. L is the radial length of 2 photons that are involved in the gamma factor of Einsteins equations described in another paper - The Gamma Factor Resolved. Frequency f x 25812.6087 = acceleration = voltage = 1/capacitance