Gravitational radiation is the ''light'' in higher spatial dimensions
India daily Technology Team
Sep. 3, 2006

According to some scientists, as a simple rule when talking about energy in the general physics sense science usually talks about electromagnetic spectra unless a specific particle is discussed. If you want to talk about light the way you have then you must talk about more than one particle (photon) in this sense. Now if you want to talk about photons then one must discuss the class of photons the discussion is about (based on Planck’s energy equation: E=h*nu, where E is energy, h is Planck’s constant, and nu is the frequency of the radiation (or photon). Other formalities grow if you want to talk about how that photon reacts with dense matter, fields, or other particles.

“All” gravity affects light, even if the gravity is weak (say Earth’s gravity compared to a white dwarf). Generally mass influences the topology of space and light travels along paths influenced by the wrinkles in this topology regardless of the magnitude. So it is not correct to say that the Earth does not affect the way photons travel (from the gravity stand point). The Earth sets in gravity well. And light that falls on us on the surface (especially during a beautiful spring day) must fall down this gravity well. The density of the medium can also affect the total energy content of the photon. That is, as the photon travels through our dense atmosphere it is loosing energy.

In higher dimensions, gravitational radiation have the same effect as light to us.

Hyperspace does not have light. It is a quantum vacuum. Hyperspace is finally shielded by the gravitational radiation as evident from black hole regions of singularities. Nothing reaches from hyperspace to the earth in terms of light that can allow optical astronomy possible. The gravity in short term is weaker than light in the 3-D Physical universe. But at higher dimensions it is much stronger than light.

Gravitational radiation is the 'light' in higher spatial dimensions
India daily Technology Team
In higher dimensions, gravitational radiation have the same effect as light to us.
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