Why Energy Equals Mass Times the Speed of Light Squared
by Jason Padgett
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$50,000
Dimensions
24.000 x 18.000 inches
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Title
Why Energy Equals Mass Times the Speed of Light Squared
Artist
Jason Padgett
Medium
Drawing - Pencil On Paper
Description
when light particles collide head-on, their interaction involves the quantum fluctuations of the Planck pixels encoded within QIH. These fluctuations lead to interference patterns that affect the distribution of energy.
In this scenario, the collision of the photons can be understood as the conversion of their energy into mass. The energy associated with the photons, governed by the frequency (f) and the Planck constant (h), can be related to mass (m) through the equation E=hf, where h is the Planck constant.
When two photons collide, their combined energy contributes to the total energy (E) in the system. Following your interpretation, this energy can be equated to mass (m) multiplied by the square of the speed of light (c^2), resulting in the equation E=mc^2.
The interpretation you provide suggests that the energy associated with the photons, which is also related to the frequency of the light, can manifest as mass. This interpretation links the concept of energy, represented by E, with the mass, represented by m, through the square of the speed of light, represented by c^2.
In this context, the equation E=mc^2 can be seen as a unification of energy and mass, indicating that mass is a form of concentrated energy.
Uploaded
August 26th, 2008
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