Webpage title: Calculating Wave Speed on a Coil Spring

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A periodic longitudinal wave with a frequency of 20.0 Hz travels along a coil spring, resulting in a wave speed of 8 m/s calculated using the formula v = d/t. The discussion also addresses a second question regarding a wave generator producing 16.0 pulses in 4.00 seconds, leading to a period of 0.25 seconds and a frequency of 4 Hz. Clarification is provided that "pulses" is not a unit, and the correct units should be specified as seconds. The calculations for both the wave speed and the wave generator's period and frequency are confirmed as accurate. Understanding the definitions of frequency and period is essential for solving wave-related problems.
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A periodic longitudinal wave that has a frequency of 20.0 Hz travels along a coil spring. If the distance between successive compressions is 0.400 m, what is the speed of the wave?


my answer:
T=1/f
T=1/20=0.05 sec

v=d/t= 0.400 meter/ 0.05 second= 8 m/s

there is other question but i couldn't figure it out because i don't know how i can use pulses to get frequency or period

the question is

A wave generator produces 16.0 pulses in 4.00 s.
a. What is its period?

b. What is its frequency?


can i know what pulse really mean, and if i am right by saying frequency will be 16/2=8 hertz
 
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Your answer for for the second problem isn't quite correct. Why are you dividing by 2 and not 4?

See here http://en.wikipedia.org/wiki/Pulse_wave for what a pulse wave looks like. The definition of frequency remains the same, it is still how many cycles you get per unit time.
 
so that mean the first question is right!
 
for pulses question it will be:
period= 4/16=0.25 pulses

frequency= 1/0.25= 4 hz

am i right?
 
pharaoh said:
for pulses question it will be:
period= 4/16=0.25 pulses

frequency= 1/0.25= 4 hz

am i right?

Period = 0.25 is correct, but "pulses" is not a unit. You mean "seconds" there, right? :smile:
The frequency is correct.
 
yep thank you
 
Thread 'Correct statement about size of wire to produce larger extension'

Thread 'Correct statement about size of wire to produce larger extension'

The answer is (B) but I don't really understand why. Based on formula of Young Modulus: $$x=\frac{FL}{AE}$$ The second wire made of the same material so it means they have same Young Modulus. Larger extension means larger value of ##x## so to get larger value of ##x## we can increase ##F## and ##L## and decrease ##A## I am not sure whether there is change in ##F## for first and second wire so I will just assume ##F## does not change. It leaves (B) and (C) as possible options so why is (C)...
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