In a sinusoidal wave, the time required for a particular point to move from maximum displacement to zero displacement is 0.17 sec. The frequency of the wave is

In a sinusoidal wave the time required for a particular point to move from equilibrium position to maximum displacement is 0.17s , then the frequency of wave is:

When a sound wave of frequency 300 Hz passes through a medium the maximum displacement of a particle of the medium is 0.1 cm . The maximum velocity of the particle is equal to

If the number of waves from a source is passing a point is 30 in a second, what is the frequency of the wave?

A string fixed at both ends is vibrating such that a point at quarter of its length from one end is a point of maximum displacement. The frequency of vibration in this mode is 100 Hz . If the frequency emitted when it vibrates in the next mode such that this point is again a point of maximum displacement is 100 k then find the value of k .

A string fixed at both is vibrating in the lowest mode of vibration for which a point at quarter of its length from one end is a point of maximum displacement . The frequency of vibration emitted when it vibrates in the next mode such that this point is again a point of maximum displacement ?

A sine wave is travelling in a medium. A particular partile has zero displacement at a certain instant. The particle closest to it having zero displacement is at a distance

A travelling wave is produced on a long horizontal string by vibrating an end up and down sinusoidal. The amplitude of vibration is 1.0cm and the displacement becomes zero 200 times per second. The linear mass density of the string is 0.10 kg m^(-1) and it is kept under a tension of 90 N. (a) Find the speed and the wavelength of the wave. (b) Assume that the wave moves in the positive x-direction and at t = 0 the end x= 0 is at its positive extreme position. Write the wave equation. (c ) Find the velocity and acceleration of the particle at x = 50 cm at time t = 10ms.

Shows the shape of a progressive wave at time t=0 . after a time t=(1)//(80) , the particle at the origin has its maximum negative displacement.if the wave speed is 80 units maximum negative displacement. If the wave speed is 80 units, then find the equation of the progressive wave. .

Assertion : In longitudinal wave pressure is maximum at a point where displacement is zero . Reason : There is a phase difference of (pi)/(2) between y(x,t) and Delta P (x, t) equation in case of longitudinal wave.

The equation of a wave travelling on a string is y=(0.10mm)sin[3.14m^-1)x+(314s^-1)t] . (a) In which direction does the wave travel ? (b) Find the wave speed, the wavelength and the frequency of the wave. (c) What is the maximum displacement and the maximum speed of a portion of the string ?