A stationary wave is given by `y = 5 sin (pi x)/(3) cos 40 pi t ` where x and y are in cm and t is in seconds
What is the distance between two successive nodes

A stationary wave is given by y = 5 sin (pi x)/(3) cos 40 pi t where x and y are in cm and t is in seconds What is the velocity of a particle of the string at the position x = 1.5 cm when t = 9/8 s

A stationary wave is given by y = 5 sin (pi x)/( 3) cos 40 pi t where x and y are in cm and t is in second. a. What are the amplitude and velocity of the component wave whose superposition can give rise to this vibration ? b. What is the distance between the nodes ? c. What is the velocity of a particle of the string at the position x = 1.5 cm when t = 9//8 s ?

The equation of stationary wave along a stretched string is given by y = 5 sin(pi/3 x) cos 40pi t where x and y are in centimetre and t in second. The separation between two adjacent nodes is :

The equation of a transverse wave is given by y=10 sin pi (0.01 x -2t ) where x and y are in cm and t is in second. Its frequency is

The equation of a stationary a stationary wave is represented by y=4sin((pi)/(6)x)(cos20pit) when x and y are in cm and t is in second. Wavelength of the component waves is

The vibrations of a string fixed at both ends are represented by y = 16 sin (pi x/15) cos 96 pi t where x and y are in cm and t in seconds. Then the phase difference between the points at x = 13 cm and X = 16 cm in radian is

The following equation represents standing wave set up in a medium , y = 4 cos (pi x)/(3) sin 40 pi t where x and y are in cm and t in second. Find out the amplitude and the velocity of the two component waves and calculate the distance adjacent nodes . What is the velocity of a medium particle at x = 3 cm at time 1//8 s ?

The equation of standing wave in a stretched string is given by {y =2sin [pi /2 (x)] cos(20 pi t)} where x and y are in meter and t is in second. Then minimum separation between two particle which are at the antinodes and having same phase will be

The wave described by y = 0.25 sin ( 10 pix -2pi t ) where x and y are in meters and t in seconds , is a wave travelling along the

The equation of a wave is given by y=a sin (100t-x/10) where x and y are in metre an t in second, the velocity of wave is