Radiation
Starlight travels through space in a straight line until it encounters an object, such as a planet or gas cloud, that can deflect or absorb it. The path of starlight can be influenced by the gravitational pull of massive objects, causing it to bend slightly.
All types of radiation can travel through space.
Sound requires a medium, such as air, water, or solid surfaces, to travel through. In outer space, there is no medium for sound waves to travel through, so sound cannot propagate in the vacuum of space.
yes
Radiation from the sun travels through space in the form of electromagnetic waves, specifically in the form of visible light, ultraviolet light, and other wavelengths. These waves do not require a medium to propagate and travel through the vacuum of space at the speed of light.
Starlight travels through space in a straight line until it encounters an object, such as a planet or gas cloud, that can deflect or absorb it. The path of starlight can be influenced by the gravitational pull of massive objects, causing it to bend slightly.
The lack of atmosphere in space means there are no particles to scatter or absorb starlight. This allows starlight to travel through space unaffected, resulting in clearer and sharper images of stars as observed from telescopes or spacecraft.
Electromagnetic energy PS: What does this have to do with religion and spirituality?
Sound and Light can travel through space.
Sound waves cannot travel through space.
Yes, a black hole could travel through space.
Electromagnetic waves can travel through space without a medium.
Yes, light can travel through space because it does not need a medium to propagate.
Asteroids travel through space.
All types of radiation can travel through space.
Light can travel through any parts of space, there is no part that it is excluded from.
Light can travel through space. All the light that we get on the earth's surface; usually travels from the sun through space before it can reach here.