Physics student is driving the string at the end at an angular frequency of 40.3 Hz. If the wavelength is 5 m, determine the frequency, wave number and the wave speed for this wave. Respectively.
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Given
Angular frequenc,ω =40.3 Hz
and wavelength λ = 5 m
To find:
frequency ,wave number,Speed of wave.
Step by step
Solved in 5 steps
- Consider the sinusoidal traveling wave shown in the figure (this is a snapshot at a certain instant of time). Assume the wave travels at 1.0 m/s. a) What is the wave's amplitude? b) What is its wavenumber k? c) What is its angular velocity w? d) What is its period T? e) What is its frequency f?I need the diagram and complete solution answer must be in 4 decimal places.A standing wave on a string fixed at both ends has three antinodes. The string is 50.0 cm long. What is the wavelength of this standing wave?
- A)Draw the standing wave pattern in an open air column for the 4th resonant length. B) What would the first resonant length be? Answer in cm.The hand moves the end of the Slinky up and down through 8 complete cycles in one second. The wave moves along the Slinky at a speed of 49 m/s. Find the distance between two adjacent crests on the wave. No need to include the unit. Write your answer in whole numbers.