A transverse wave on a string has an amplitude of 0.2 m and a frequency of 175 Hz. Consider a particle of the string at x=0. it begins with a displacement y=0, at t=0, according to equation `y=0.2 sin (kx+-omegat)`. How much time passed between the first two instant when this particle has a displacement of y=0.1 m?

A transverse wave of amplitude 0.5 m and wavelength 1 m and frequency 2 Hz is propagating in a string in the negative x - direction. The expression for this wave is [

Transverse waves on a srting have speed 12.0 m//s , amplitude 0.05 m and wavelength 0.4 m . The waves travel in the + x-direction and at t = 0 the x = 0 end of the string has zero displacement and is moving upwards. (a) Write a wave function describing the wave. (b) Find the transverse displacement of a point at x = 0.25 m at time t = 0.15 s . ( c ) How much time must elapse from the instant in part (b) until the point at x = 0.25 m has zero dispacement?

A particle executing SHM has amplitude of 1m and time period pi sec . Velocity of particle when displacement is 0.8m is

A particle executes S.H.M. given by the equation y = 0.45 sin 2t where y is in meter and t is in second. What is the speed of the particle when its displacement is 7.5 cm?

For a certain transverse standing wave on a long string , an antinode is formed at x = 0 and next to it , a node is formed at x = 0.10 m , the displacement y(t) of the string particle at x = 0 is shown in Fig.7.97.

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

A transverse wave of amplitude 2 m, wavelength 4 m and frequency 6 Hz is propagating in a string toward positive y-direction. The equation of the wave may be (y is in m and t is in s)

A wave along a string has the equation y = 0.02 sin (30 t - 4x) , where x and y are in m and t in second the amplitude of the wave is

A 2 m-long string fixed at both ends is set into vibrations in its first overtone. The wave speed on the string is 200 m s and the amplitude is 0.5 cm. (a) Find the wavelength and the frequency. (b) Write the equation giving the displacement of different points as a function of time. Choose the X-axis along the string with the origin at one end and t = 0 at the instant when the point x= 50 cm has reached its maximum displacement.