Two waves represented by `y_(i)=3sin(200x-150t) and y_(2)=3cos(200x-150t)` are superposed where x and y are in metre and t is in second. Calculate the amplitude of resultant wave

The equation of a stationary wave is represented by y=2sin((2pix)/(3))sin(3pit) Where y and x are in metre and t is in second. Calculate amplitude, frequency, wavelength and velocity of the component waves whose superposition has produced these vibrations.

Two waves represented by y=asin(omegat-kx) and y=acos(omegat-kx) are superposed. The resultant wave will have an amplitude.

The equation of progressive wave is given by y=10sin[300pi(t-(x)/(480))] where x and y are in metre and t is in second. Calculate the amplitude frequency time period and wavelength of the wave.

Two waves represented by y_1=10 sin (2000 pi t) and y_2=10 sin (2000 pi t + pi//2) superposed at any point at a particular instant. The resultant amplitude is

Two travelling sinusoidal waves described by the wave functions y _(1) = ( 5.00 m) sin [ pi ( 4.00 x - 1200 t)] and y_(2) = ( 5.00 m) sin [ pi ( 4.00 x - 1200 t - 0.250)] Where x , y_(1) and y_(2) are in metres and t is in seconds. (a) what is the amplitude of the resultant wave ? (b) What is the frequency of resultant wave ?

A tavelling harmonic wave is represented by the equation y(x,t)=10^(-3) sin (50t+2x), where x and Y are in meter and t is in seconds . Which of the following is a correct statement about the wave?

The two waves are represented by y_(1)= 10^(-6) sin(100t + (x)/(50)+ 0.5)m Y_(2) =10^(-2) cos(100t + (x)/(50))m where x is ihn metres and t in seconds. The phase difference between the waves is approximately:

A standing wave is represented by, y-Asin(100t)cos(0.01x) , where x,y and A are in millimeter and t in second. The velocity of the wave is

The equations for two sinusoidal waves propagating through a string are given by, y_(1)=4 sin (20x-30t) y_(2)=4 sin (25-x-40t) where y and x are in centimeters and t is second. (i) What is the phase difference between these two waves at the points x=5.0 cm and at t=2.0 s? (ii) When these two waves interface what is the maximum and minimum value of the intensity?

Two waves are represented by the equations y_(1)=asin(omegat+kx+0.57)m and y_(2)=acos(omegat+kx) m, where x is in metres and t is in seconds. The phase difference between them is