a large wave because it is built and its structure is stronger.
No, waves with a smaller disturbance travel faster. This is because they have less distance to travel.
Yes because a large disturbance requires so much energy
No. In any case, there shouldn't be much difference.
No, waves created by a large disturbance do not necessarily travel faster than waves created by a small disturbance. The speed of a wave depends on the medium through which it is traveling, not on the size of the disturbance that created it.
No. In any case, there shouldn't be much difference.
Sound waves travel faster in steel than in air because steel is denser and stiffer than air, so the particles are closer together and can transfer vibrations more effectively. This allows sound waves to propagate faster through steel compared to air.
No light travels way faster
They travel faster through solids
No, waves created by a large disturbance do not necessarily travel faster than waves created by a small disturbance. The speed of a wave depends on the medium through which it is traveling, not on the size of the disturbance that created it.
No. In any case, there shouldn't be much difference.
no p waves travel faster than s waves
Water waves - if that's what you mean - tend to travel at more or less the same speed, independent of their amplitude.
Sound waves travel faster in steel than in air because steel is denser and stiffer than air, so the particles are closer together and can transfer vibrations more effectively. This allows sound waves to propagate faster through steel compared to air.
The disturbance that travels in a water and EM waves is sometimes known as electromagnetic radiation. Electromagnetic waves have the ability to travel through a vacuum.
Light waves travel faster than sound waves. The speed of light in a vacuum is about 186,282 miles per second, whereas the speed of sound in air is about 767 miles per hour.
Waves generally travel faster in solids than in liquids or gases. This is because solids have a higher density and more tightly packed particles, allowing for quicker transmission of wave energy.
only faster not slower.
sound waves
No light travels way faster
Supersonic waves are waves that can travel faster than normal sound waves.