Yahoo Answers is shutting down on May 4th, 2021 (Eastern Time) and beginning April 20th, 2021 (Eastern Time) the Yahoo Answers website will be in read-only mode. There will be no changes to other Yahoo properties or services, or your Yahoo account. You can find more information about the Yahoo Answers shutdown and how to download your data on this help page.

gravity waves what do you think?

I believe gravity particles move in a wave shaped like a cone. This gives it a very strong force at origin (atomic strong force) and gets weaker as is moves outward and becomes less dense. Therefore the particle must be moving faster than the speed of light although the wave is at the the speed of light. I think that as the frequency increase and the wavelength decrease for any particle, this spiraling of the particle increases. You could get gravity particle moving fast enough that the cone "opens" very quickly creating a shield that traps all other wavelengths within creating a black hole.

Update:

I didnt say the wave moves faster than c the particle does. And hello we only have theory when discussing gravity waves/particles.

Update 2:

if you think about it atomicly the waves would be twisting into each other's "wake" like two springs being brought together with the same rotation.

3 Answers

Relevance
  • Anonymous
    1 decade ago
    Favorite Answer

    Sounds like you have an amazing mind.

    Contrary to what some may say as far as I'm concerned it does matter what you believe and it is great to question everything.

    At one time the world was flat remember?

  • 1 decade ago

    the wave doesn't have to actually be shaped line a cone. a wave obeying the 3D wave equation will naturally fall in intensity like 1/r^2 anyway. you don't need to use cones.

    In fact a wave by definition is not cone shaped. A wave it a shape of its very own. You're saying something like "I believe boxes are shaped like cones".

  • Anonymous
    1 decade ago

    It's really irrelevant what you believe. Gravitational waves move at the speed of light, you can't get them to move faster or slower.

Still have questions? Get your answers by asking now.