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The particles in a transverse wave are displaced perpendicularly to the direction of the wave motion. For example, water waves are transverse waves. Think of how in the sea, the wave is moving towards the shore, but the water goes up and down. The water molecules are being displaced vertically, but the wave itself is moving horizontally. This is the characteristic motion of a transverse wave. Transverse waves are also able to move through a vacuum. Light, for example, is a transverse wave, and it can move through space, which is a vacuum. (A longitudinal wave, on the other hand, has particles which move in the same direction as the wave, and cannot travel through a vacuum. For example, sound waves.)
It can happen any place where two waves meet. This is usually most relevant when both waves have the same frequency.
Determine the objects mass then submerse it in water, the volume of the water displaced is equal to the objects volume. Now get an equal mass of gold and submerse that in the the same amount of water and record the volume of water it displaces. If the volume of water displaced by the first object is eqaul to the volume of water displaced by the gold then the first object is made out of gold, if however the volumes dont match then it is not made out of gold.
Interference
The magnitude of both forces is the same.
displaced
can deep water waves and shallow water waves exist at the same point offshore?
they both are types of waves.
diunosaurs
diunosaurs
they both are types of waves.
Buoyancy blah blah the same as the water it displaced.
The particles in a transverse wave are displaced perpendicularly to the direction of the wave motion. For example, water waves are transverse waves. Think of how in the sea, the wave is moving towards the shore, but the water goes up and down. The water molecules are being displaced vertically, but the wave itself is moving horizontally. This is the characteristic motion of a transverse wave. Transverse waves are also able to move through a vacuum. Light, for example, is a transverse wave, and it can move through space, which is a vacuum. (A longitudinal wave, on the other hand, has particles which move in the same direction as the wave, and cannot travel through a vacuum. For example, sound waves.)
The particles in a transverse wave are displaced perpendicularly to the direction of the wave motion. For example, water waves are transverse waves. Think of how in the sea, the wave is moving towards the shore, but the water goes up and down. The water molecules are being displaced vertically, but the wave itself is moving horizontally. This is the characteristic motion of a transverse wave. Transverse waves are also able to move through a vacuum. Light, for example, is a transverse wave, and it can move through space, which is a vacuum. (A longitudinal wave, on the other hand, has particles which move in the same direction as the wave, and cannot travel through a vacuum. For example, sound waves.)
The easiest way is to place the object in a graduated beaker of water, and see how much the water rises when you put it in. Archimedes Principle says that the volume of the object is the same as the water displaced from the beaker.
They are exactly the same amount
they both are types of waves.