Answer:
Velocity, v = 0.239 m/s
Explanation:
Given that,
The distance between two consecutive nodes of a standing wave is 20.9 cm = 0.209 m
The hand generating the pulses moves up and down through a complete cycle 2.57 times every 4.47 s.
For a standing wave, the distance between two consecutive nodes is equal to half of the wavelength.
[tex]\dfrac{\lambda}{2}=0.209\ m\\\\\lambda=0.418\ m[/tex]
Frequency is number of cycles per unit time.
[tex]f=\dfrac{2.57}{4.47}\\\\f=0.574\ Hz[/tex]
Now we can find the velocity of the wave.
Velocity = frequency × wavelength
v = 0.574 × 0.418
v = 0.239 m/s
So, the velocity of the wave is 0.239 m/s.
