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If you make wave in a rope so that one wave passes every second what is it frequency?
The frequency of the wave passing through the rope would be 1 hertz, as one wave passes every second. Frequency is measured in hertz, which represents the number of waves passing a certain point per second.
If the waves in the rope have a frequency of 2 hertz how many waves pass apoint per second?
If the waves have a frequency of 2 hertz, then 2 waves pass a point in 1 second.
What happens to the wavelength of waves on a rope if you move your hand up and down less often?
If you move your hand up and down less often, the wavelength of the waves on the rope will increase. This is because the frequency of the waves is determined by how often you move your hand, and since speed is constant, a decrease in frequency leads to an increase in wavelength.
What kind of waves are on a rope?
The waves on a rope are transverse waves. This means that the particles of the rope move perpendicular to the direction of the wave propagation.
How could 2 waves on a rope interfere so that the rope did not move at all?
If the two waves are of equal amplitude and frequency but opposite in phase, they can interfere destructively, causing the displacements caused by each wave to cancel each other out. This results in a standing wave pattern where the rope appears to be stationary at certain points.
If you make wave in a rope so that one wave passes every second what is it frequency?
The frequency of the wave passing through the rope would be 1 hertz, as one wave passes every second. Frequency is measured in hertz, which represents the number of waves passing a certain point per second.
If the waves in the rope have a frequency of 2 hertz how many waves pass apoint per second?
If the waves have a frequency of 2 hertz, then 2 waves pass a point in 1 second.
What happens to the wavelength of waves on a rope if you move your hand up and down less often?
If you move your hand up and down less often, the wavelength of the waves on the rope will increase. This is because the frequency of the waves is determined by how often you move your hand, and since speed is constant, a decrease in frequency leads to an increase in wavelength.
If you make three rope waves persecond what is the frequency of the wave?
3 per second = 3 Hz
What kind of waves are on a rope?
The waves on a rope are transverse waves. This means that the particles of the rope move perpendicular to the direction of the wave propagation.
If you make a wave in a rope so that a wave passes every second What is its frequency?
1 Hz
How could 2 waves on a rope interfere so that the rope did not move at all?
If the two waves are of equal amplitude and frequency but opposite in phase, they can interfere destructively, causing the displacements caused by each wave to cancel each other out. This results in a standing wave pattern where the rope appears to be stationary at certain points.
What do you call waves in a rope?
Waves in a rope are often referred to as ripples. These ripples are created by disturbances along the length of the rope, causing a wave-like pattern to form.
If you make a wave in a rope so that one wave passes every second what is its frequency?
1 hertz.
Can transverse waves be made with a rope?
Yes, transverse waves can be generated in a rope. When you flick one end of a rope up and down, a transverse wave is produced that travels along the length of the rope. This wave motion is characterized by the rope oscillating perpendicular to the direction of wave travel.
You make a transverse wave by shaking the end of a long rope up and down. explain how you shake the end of the rope to make the wave length shorter. How would you shake the end of the rope to increase?
To make the wavelength shorter, you would increase the frequency by shaking the end of the rope up and down faster. This would cause more waves to be produced in a given time, thus reducing the distance between each wave. To increase the wavelength, you would decrease the frequency by shaking the end of the rope up and down slower, resulting in longer distances between waves.
How transverse waves can be produced on a rope?
Lay a long length of rope on the ground, straight out. Grab one end and jerk it upward and downward. A wave will pass down towards the other end of the rope, this is a transverse wave.
