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Standing waves are produced in a 10 m long stretched string. If the string . vibrates in 5 segments and the wave velocity is 20 m/s, the frequency is
Homework Statement Standing sound waves are produced in a pipe that is 1.40 m long. For the fundamental frequency and the first two overtones, determine the locations along the pipe (measured from the left end) of the displacement nodes if the pipe is open at both ends. Homework...
Standing waves are setup in a string of length 240 cm clamped horizontally at both ends. The separation between any two consecutive points were displacement amplitude is 3 √ 2 cm is 20 cm. The standing waves were setup by two travelling waves of equal amplitude of 3 cm. The overtone in which the string is vibrating will be :
Oscillation of a 6 0 0 H z tuning fork sets up standing waves in a string clamped at both ends. The wave speed for the string is 4 0 0 m / s . The standing wave has four loops and an amplitude of 2 . 0 m m .
Solution. Verified by Toppr. The correct option is A Solid only. Standing wave produces when two waves of identical frequency interfere with one another while travelling in opposite directions and this coincidence directions and this coincidence is not possible in fluids or gases. Was this answer helpful?
Standing waves are produced by the superposition of two waves, y 1 = 0.05 sin (3 π t − 2 x) and y 2 = 0.05 sin (3 π t + 2 x), where x and y are expressed in metres and t is in seconds. What is the amplitude of a particle at x = 0.5 m? Given cos 57.3 ∘ = 0.54.
A standing wave is produced in a 10 m long string fixed at one end and free at the other end. Find the wavelength of wave, if string is vibrating in its second overtone, and wave velocity is 20 m/s.
Standing waves are produced in a 10 m long stretched string. If the string . vibrates in 5 segments and the wave velocity is 20 m/s, the frequency is
Standing waves are produced in a wire by vibrating one end at a frequency of 100 H z. The distance between the 2nd and the 5th nodes is 60 c m. The wavelength of the original traveling wave is ____ c m.
Standing wave produced in a metal rod of length 1 m is represented by the equation y = 10 − 6 sin π x 2 sin 200 π t where x is in metre and t is in seconds. The maximum tensile stress at the mid-point of the rod is (Young's modulus of material of rod = 10 12 N / m 2 ).