What is the relationship between energy and the curvature of spacetime?

In summary, Light wave is a serial time-space spherical wave that carries curvature and kinetic energy, but not mass. The idea that light wave transfers an equivalent mass is incorrect, rendering Einstein's mass-energy formula incorrect as well. Energy is instead equivalent to the change in the curvature of time-space, as stated in Einstein's field equations of general relativity.
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424319
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Light wave is a effect of the vabration of atom's sphere time-space determined by the double-focus principle. Light wave is a serial time-space spherical wave. light wave carries curvature and kinetic energy, but not mass.Suppossition that light wave transfers a equivalent mass is wrong. So, the mass-energy formula created by Einstein is also wrong.

Energy is equivalent to the change in the curvature of time-space.

Reference: THING AND ITS LAW ( ISBN 1-58939-525-5), chapter 2,5, published by Virtualbookworm.com publishing.Inc.
 
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  • #2
424319,

Your quote

Energy is equivalent to the change in the curvature of time-space.

This is only partially correct.

According to Einstein's field equations of general relativity:

The curvature of spacetime is equivalent to the energy-momentum tensor.
 

1. Is mass equivalent to energy?

Yes, according to Einstein's famous equation E=mc^2, mass and energy are equivalent and can be converted into one another.

2. How does mass convert into energy?

Mass can convert into energy through nuclear reactions, such as nuclear fission or fusion, where the nucleus of an atom splits or combines, releasing a large amount of energy.

3. Can energy convert back into mass?

Yes, energy can also convert back into mass. This can occur through the process of pair production, where high-energy photons (particles of light) can create an electron and its antiparticle, a positron, which have mass.

4. Is all mass converted into energy during nuclear reactions?

No, not all mass is converted into energy during nuclear reactions. Some mass is lost in the form of neutrinos, which are tiny, nearly massless particles, and also in the form of heat and light energy.

5. How do scientists measure the equivalence of mass and energy?

Scientists use units of energy and mass, such as joules and kilograms, to measure the equivalence of mass and energy. They also use advanced mathematical equations, like E=mc^2, to calculate the amount of energy released or mass converted in a given reaction.

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