they dig a long hole in the ground and find it
it lets sicnetist knwo where fossils are located ; where they can find fossils to burn it down
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Yes, they can. Normal sound waves (the curvy kind) are called sinusoidal, because when graphed, they use equations with the trigonometry function sine. However, sound waves can also be triangular (pointed instead of normal curves), square (flattening at the top or bottom of the curve), or "sawblade" which is shaped like a saw blade. You can listen to examples of each of these on the wikipedia page for "non-sinusoidal sound waves" which I don't have the link for not but its pretty easy to find.
High frequency sound waves can shatter glass if powerful enough. This happens because the glass vibrates at the same frequency as the sound waves on the outer surface of the glass, but at lower frequencies inside the glass. This causes interference in the waveforms moving through the glass, which stress the glass, causing it to break. This is a different effect than when a single sharp sound, such as an explosion, pushes the glass beyond its breaking point.
Index mineral represents its presence over a large area for a specific period of time. So it helps the geologist to find out the time period.
sound waves and then type what you want in
Whut?
"Cymatic" refers to sound waves and similar vibrations, not to electromagnetic waves. You can do some reading on electromagnetic waves - to get started, you might read the Wikipedia article - and then decide what similarities there are to sound waves.
it lets sicnetist knwo where fossils are located ; where they can find fossils to burn it down
Sure, here's a short poem about sound waves: Sound waves dance through the air, Whispering secrets, everywhere. A symphony of frequencies in play, Bringing melodies to light of day.
Sonar. An acronym for sound navigation and ranging.
SONAR (sound navigation and ranging)
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ECHOLOCATION SONAR
This job would normally be undertaken by a type of geophysicist known as a seismologist rather than a geologist. For information on how seismologists locate seismic waves, see the related question.
Sonar (or Sound Navigation and Ranging) is a type of technology that was designed to help with navigation, communication and locate objects underwater. Sonar projects sound waves then listens for the echo of the emitted sound waves to detect objects.
Sound waves, which are mechanical energy, travel in all directions because of diffraction. Diffraction can be thought of as the "bending" of sound waves. To find a more detailed answer to this question, go to the related link listed below. It answers the question perfectly.