The velocity of the component wave is

The equation given below represents a stationary wave set-up in a medium y=12sin(4pix)sin(4pit) where y and x are in cm and t is in second. Calculate the amplitude, wavelength and velocity of the component waves.

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.

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 ?

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 velocity of electromagnetic wave is parallel to

Assertion : The velocity of electromagnetic waves depends on electric and magnetic properties of the medium Reason : Velocity of electromagnetic waves in free space is constant.

The velocity of electromagnetic wave is along the direction of