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When a compression wave travels through a medium, the particles of the medium move parallel to the direction of the wave. Compression waves are commonly called longitudinal waves.
Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.
A Compressional wave.
The particle will move briefly, then get back to its starting point. The wave moves ahead, the individual particles don't.The particle will move briefly, then get back to its starting point. The wave moves ahead, the individual particles don't.The particle will move briefly, then get back to its starting point. The wave moves ahead, the individual particles don't.The particle will move briefly, then get back to its starting point. The wave moves ahead, the individual particles don't.
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When a compression wave travels through a medium, the particles of the medium move parallel to the direction of the wave. Compression waves are commonly called longitudinal waves.
no because when the seasons change the sun moves around it goes back and fourth
no the back will flip up and the front will go back
Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.Waves do not transport matter (except fot the matter equivalent of energy, according to the Theory of Relativity). For example, in a water wave, the wave moves on, but each water particle goes back to its place.
It is a rarefaction.
Whay is earthquakes happening? Whay is earthquakes happening?
A Compressional wave.
Because when you fly from chicago to tokyo, you fly with the movement of the earth, and when flying back to chicago, you fly against it. It's like trying to catch up with a car in front of you: it moves in the same direction, so it takes longer for you to catch up with it than when it moves in the opposite direction.
The blood moves in a lateral direction to the distal right thumb. Then the blood comes back in a proximal direction toward the medial body, where the heart is located.
When thrown the top wing of the spin moves in the same direction ,while the wing on the bottom of the spin moves in the opposite direction of the throw. The wing on top is spinning at the same speed as the bottom wing. More air passes under the top wing which lifts the boomerang. The boomerang travels in a circle returning back to the thrower.
The particle will move briefly, then get back to its starting point. The wave moves ahead, the individual particles don't.The particle will move briefly, then get back to its starting point. The wave moves ahead, the individual particles don't.The particle will move briefly, then get back to its starting point. The wave moves ahead, the individual particles don't.The particle will move briefly, then get back to its starting point. The wave moves ahead, the individual particles don't.