A wave moving with constant speed on a uniform string passes the point `x=0` with amplitude `A_0`, angular frequency `omega_0` and average rate of energy transfer `P_0`. As the wave travels down the string it gradually loses energy and at the point `x=l`, the average rate of energy transfer becomes`P_0`/2. At the point `x=l`. Angular frequency and amplitude are respectively:

A wave moving with constant speed on a uniform string passes the point x=0 with amplitude A_0 , angular frequency omega_0 and average rate of energy transfer P_0 . As the wave travels down the string it gradually loses energy and at the point x=l , the average rate of energy transfer becomes half. At the point x=l . Angular frequency and amplitude are respectively:

A 200 Hz wave with amplitude 1 mm travels on a long string of linear mass density 6 g//m keep under a tension of 60 N . (a) Find the average power transmitted across a given point on the string. (b) Find the total energy associated with the wave in a 2.0 m long portion of the string.

Particles on a string vibrate with amplitude of 6cm speed of wave is 300 m/s and angular frequency of oscillations is 245. Find wave equation of wave is travelling along positive x-direction.

A sinusoidal wave of angular frequency 1200 rad/s and amplitude 3.00 mm is sent along a cord with linear density 2.00 g/m and tension 1200 N. What is the average rate at which energy is transported by the wave to the opposite end of the cord?

A wave travelling along a string is given by y(x, t) = 20 sin 2pi (t - 0.003 x) x, y are in cm and t is in seconds. Find the amplitude, frequency, wavelength and velocity of the wave.

Write down the equation of a wave travelling in the negative direaction along x-axis with an amplitude 0.01 m , a frequency 550 Hz and a speed 330 m//s .

A transverse wave of amplitude 0.50 m, wavelength 1 m and frequency 2 hertz is propagating in a string in the negative x-direction. The expression form of the wave is

The average of power transmitted through a given point on a string supporting sine wave is 0.2 W, while the amplitude of wave is 2xx10^-3m . If the amplitude of wave is 3xx10^-3m then average power transmitted will be

An harmonic wave has been set up on a very long string which travels along the length of the string. The wave has a frequency of 50 Hz, amplitude 1 cm and wavelength 0.5 m. find (a) the time taken by the wave to travel a distance of 8 m along the length of string (b) the time taken by a point on the string to travel a distance of 8 m, once the wave has reached the point and sets it into motion (c ) also. consider the above case when the amplitude gets doubled