A Wave Pulse Travels Down A Slinky . A wave pulse travels down a slinky. The wave pulse has an amplitude of a = 0.2 m and takes t = 0.426 s to travel down the stretched length of the slinky.
Velocity of Pulse Propagated Through a Slinky MeitY from www.youtube.com
1) what is the speed of the wave pulse? The wave pulse has an amplitude of a = 0.24 m and takes t = 0.49 s to travel down the stretched length of the slinky. When a wave propagates through a medium, the molecules of the medium;
Velocity of Pulse Propagated Through a Slinky MeitY
The wave pulse has an amplitude of a = 0.24 m and takes t = 0.49 s to travel down the stretched length of the slinky. The frequency of the wave pulse is f = 0.43 hz. 3 wave pulse travels at a speed v down the slinky/rope v determined by tension t and density (mass per unit length) turns out √ v is determined by properties of medium, not how wave was created! Trial time for pulse to return to sender.
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The mass of the slinky is m = 0.88 kg and is initially stretched to a length l = 7.2m. In the process, regions of rarefaction (where the density drops. As a wave pulse travels down a piece of rope, some of the energy it is carrying is transferred into other forms. 1) what is the speed of the wave.
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The wave pulse has an amplitude of a = 0.28 m and takes t = 0.48 s to travel down the stretched length of the slinky. In the process, regions of rarefaction (where the density drops. 34.834 n submit 3) what is the average speed of a piece of the slinky as a complete wave pulse passes? The wave pulse.
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A wave pulse travels down a slinky. The wave pulse has an amplitude of a = 0.26 m and takes t = 0.472 s to travel down the stretched length of the slinky. The wave pulse has an amplitude of a = 0.28 m and takes t = 0.48 s to travel down the stretched length of the slinky. A.
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1) what is the speed of the wave pulse? Continuous wave = series of repeating vibrations creates travelling waves demo if whatever is forcing the rope/string executes shm, then pulses are sent continuously The frequency of the wave pulse is f = 0.48 hz. A region of air (or some other medium) is compressed, and as it expands it pushes.
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A wave pulse travels down a slinky. In the process, regions of rarefaction (where the density drops. The frequency of the wave pulse is f = 0.49 hz. The frequency of the wave pulse is f = 0.4 hz. The mass of the slinky is m = 0.88 kg and is initially stretched to a length l = 7.3 m.
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1) what is the speed of the wave pulse? Repeat your measurement three times and find the average. The frequency of the wave pulse is f = 0.42 hz. The wave pulse has an amplitude of a = 0.25 m and takes t = 0.426 s to travel down the stretched length of the slinky. A wave pulse travels down.
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The mass of the slinky is m = 0.86 kg and is initially stretched to a length l = 6.5 m. The wave pulse has an amplitude of a = 0.24 m and takes t = 0.452 s to travel down the stretched length of the slinky. A traveling wave is one in which the waveform moves through the medium..
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Using the known length of the stretched slinky and the stopwatch, calculate the speed of the pulse as it travels up and down the slinky once. 1) 2) what is the speed of the wave pulse? As a wave pulse travels down a piece of rope, some of the energy it is carrying is transferred into other forms. The frequency.
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The mass of the slinky is m = 0.86 kg and is initially stretched to a length l = 6.5 m. A wave pulse travels down a slinky. The mass of the slinky is m = 0.92 kg and is initially stretched to a length l = 7.8 m. The mass of the slinky is m = 0.91 kg and.
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The mass of the slinky is m = 0.94 kg and is initially stretched to a length l = 6.1 m. A wave pulse travels down a slinky. The mass of the slinky is m = 0.89 kg and is initially stretched to a length l = 7.1 m. 1) what is the speed of the wave pulse? The mass.
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The wave pulse has an amplitude of a = 0.2 m and takes t = 0.426 s to travel down the stretched length of the slinky. A) v slinky > v spring b) v slinky = v spring c) v slinky < v spring slinky stretches more, so it has a smaller mass/length. The mass of the slinky is m.
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The frequency of the wave pulse is f = 0.43 hz. The wave pulse has an amplitude of a = 0.23 m and takes t = 0.448 s to travel down the stretched length of the slinky. Using the known length of the stretched slinky and the stopwatch, calculate the speed of the pulse as it travels up and down.
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The mass of the slinky is m = 0.86 kg and is initially stretched to a length l = 6.5 m. The wave pulse has an amplitude of a = 0.24 m and takes t = 0.49 s to travel down the stretched length of the slinky. The mass of the slinky is m = 0.88 kg and is initially.
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The frequency of the wave pulse is f = 0.42 hz. As a wave pulse travels down a piece of rope, some of the energy it is carrying is transferred into other forms. The frequency of the wave pulse is f = 0.4 hz. The wave pulse has an amplitude of a = 0.2 m and takes t = 0.426.
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The wave pulse has an amplitude of a = 0.2 m and takes t = 0.426 s to travel down the stretched length of the slinky. 1.what is the average speed of a piece of the slinky as. A wave pulse travels down a slinky. A traveling wave is one in which the waveform moves through the medium. The frequency.
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1.what is the average speed of a piece of the slinky as. The wave pulse has an amplitude of a = 0.23 m and takes t = 0.448 s to travel down the stretched length of the slinky. The previous parts to the questions are (and confirmed correct): A wave pulse travels down a slinky. The frequency of the wave.
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The wave pulse has an amplitude of a = 0.24 m and takes t = 0.49 s to travel down the stretched length of the slinky. The mass of the slinky is m = 0.89 kg and is initially stretched to a length l = 7.1 m. A wave pulse travels down a slinky. The wave pulse has an amplitude.
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A wave pulse travels down a slinky. The mass of the slinky is m = 0.88 kg and is initially stretched to a length l = 7.3 m. The mass of the slinky is m = 0.91 kg and is initially stretched to a length l = 6.3 m. The frequency of the wave pulse is f = 0.4 hz..
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A wave pulse travels down a slinky. This causes a decrease in the ____________ of the wave; In a transverse pulse or wave the medium in which the wave is traveling oscillates perpendicularly to the direction of the pulse or wave’s motion. 1) what is the speed of the wave pulse? The most important examples of longitudinal waves are sound.
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Sketch a ‘snapshot’ of the wave as if moves up and down the slinky. The wave pulse has an amplitude of a = 0.26 m and takes t = 0.472 s to travel down the stretched length of the slinky. The frequency of the wave pulse is f = 0.48 hz. The frequency of the wave pulse is f =.
