A wave is describe by `y=(2.00 cm) sin (ks-omegat)`, where `k=2.11 rad//m, omega =3.62 rad//s, x is in metres, and t is in seconds. Determine the amplitude, wavelength, frequency, and speed of the wave.

Two sinusoidal waves travelling in opposite directions interfere to produce a standing wave described by the equation y=(1.5m)sin (0.400x) cos(200t) where, x is in meters and t is in seconds. Determine the wavelength, frequency and speed of the interfering waves.

Two sinusoidal waves travelling in opposite directions interfere to produce a standing wave described by the equation y=(1.5m)sin (0.400x) cos(200t) where, x is in meters and t is in seconds. Determine the wavelength, frequency and speed of the interfering waves.

Two sinusoidal waves travelling in opposite directions interfere to produce a standing wave described by the equation y=(1.5)msin(0.200x)cos(100t) , where x is in metres and t is in seconds. Determine the wavelength, frequency and speed of the interfering waves.

Two sinusoidal waves travelling in opposite directions interfere to produce a standing wave described by the equation y=(1.5)msin(0.200x)cos(100t) , where x is in metres and t is in seconds. Determine the wavelength, frequency and speed of the interfering waves.

A wave is represented by the equation, y = 0.1 sin (60 t + 2x) , where x and y are in metres and t is in seconds. This represents a wave

The equation of a progressive wave is y = 15 sin pi (70t - 0.08x) . where y and x are in c.m. at t is in sec. Find the amplitude.frequency, wavelength and speed of the wave.

The equation of a plane progressive wave is give by equation y=10sin2pi(t-0.005x) where y and x are in cm and t is in seconds. Calculate the amplitude, frequency, wavelength and velcoity of the wave.

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.