why does sound travel faster in solids

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The reason that sound travels faster in solids is because the air is denser, which means its molecules vibrate more. Solids can be made to vibrate however, by adding small amounts of water to the air, but solids are more resistant to sound waves, so you need to add a bit more water to make the air vibrate more.

The “sound travel faster in solids” is a myth, and you can even make solid objects seem to travel faster by applying a tiny amount of the right chemicals. For example, the solids of most metals tend to be denser than air, so they can be made to “sound faster” by adding a tiny amount of different metals to it or making them vibrate more.

There is no scientific explanation for how sound waves travel faster in solids. According to the myth, you need to add a tiny bit of water to the air to make the air vibrate more, but solids are more resistant to sound waves, so you need to add a bit more water to make the air vibrate more.

When we look at sound waves, we can’t just look at waves in air. If we did that, we would think that all waves are propagating in the same direction, but that’s not true. In fact, if we think that all waves are propagating in the same direction, then we would think that the waves we hear are not moving at all but just bouncing off the air.

In solids, the waves aren’t moving at all. In fact, they are moving in the opposite direction to the air. The sound waves are bouncing back and forth off of objects in the air. When these objects are solid or at least rigid, the sound waves also bounce back and forth off of those objects, and so you hear the sound waves as if they were moving in the air.

In solids, sound, and light are not moving at all, and are thus not traveling in the same direction. This is different than the waves on the surface of the ocean. The waves on the surface of the ocean are traveling in the same direction as the air. That means that sound, and light cannot travel faster in solids. Because sound and light travel at different speeds on solid surfaces, they would not be traveling in the same direction.

Sound travel has been found to be slower in solids, especially in those where the surface is very smooth. This sounds like a pretty big deal, and the fact that this is the case makes sound travel slower in solids. But a more important reason is that sound waves travel faster when they are traveling over longer distances. This is why sound waves travel faster when they are traveling over longer distances.

Sound waves are also traveling faster when they are traveling over longer distances. As mentioned above, sound is a wave of energy. Sound travels over a long distance through air because the air is extremely transparent. The very air itself seems to be a solid in the sense that sound waves seem to be traveling faster. As such, sound waves traveling over longer distances in solids seem to be traveling over longer distances. This is why sound travels slower in solids.

Like the sound of a gunshot, sound travels over a long distance through air. When you are shooting a gun, you’re making a lot of tiny waves of pressure that travel over a long distance through air. When you fire a gun, you’re also making a lot of larger waves of pressure that travel over a long distance through air. If you fire your gun at a target, you’re making a lot of smaller pressure waves that travel over a long distance through air.

This is really interesting, as sound travels much faster through air than it does in solids, but it seems that the sound travels far faster through solids than it does through air.

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