A 100 Hz sinusoidal wave is travelling in the positive x-direction along a string with a linear mass density of `3.5xx10^(3) kg//m` and a tension of 35 N. time t=0, the point x=0 has maximum displacement in the positive y-direction. Next, when this point has zero displacement the slope (iii) the expression which represents the displacement of string as a function of x (in metres) and t (in seconds).

A 100 Hz sinusoidal wave is travelling in the posotive x-direction along a string with a linear mass density of 3.5 xx10^(-3) kg//m and a tension of 35 N . At time t= 0 , the point x=0 , has maximum displacement in the positive y-direction. Next when this point has zero displacement, the slope of the string is pi//20 . Which of the following expression represent (s) the displacement of string as a function of x (in metre) and t (in second)

A 200 Hz sinusoidal wave is travelling in the posotive x-direction along a string with a linear mass density of 3.5 xx10^(-3) kg//m and a tension of 35 N . At time t= 0 , the point x=0 , has maximum displacement in the positive y-direction. Next when this point has zero displacement, the slope of the string is pi//20 . Which of the following expression represent (s) the displacement of string as a function of x (in metre) and t (in second)

A 100 Hz sinusoidal wave is travelling in the positve x - direaction along a string with a linear mass density of 3.5 xx10^(-3) kgm ^(-1) and a tension of 35 N. At time t =0 ,the point x=0 has zero displacment and the slope of the string is pi//20 then select the wrong alternative.

A 100 Hz sinusoidal wave is travelling in the positve x - direaction along a string with a linear mass density of 3.5 xx10^(-3) kgm ^(-1) and a tension of 35 N. At time t =0 ,the point x=0 has zero displacment and the slope of the string is pi//20 then select the wrong alternative.

A sinusoidal wave trsvelling in the positive direction on a stretched string has amplitude 2.0 cm , wavelength 1.0 m and velocity 5.0 m//s . At x = 0 and t= 0 it is given that y = 0 and (dely)/(delt) lt 0 . Find the wave function y (x, t) .

A sinusoidal wave trsvelling in the positive direction on a stretched string has amplitude 2.0 cm , wavelength 1.0 cm and velocity 5.0 m//s . At x = 0 and t= 0 it is given that y = 0 and (dely)/(delt) lt 0 . Find the wave function y (x, t) .

Write the expression for displacement for a sinusoidal wave travelling in positive x-direction.

The tension in a string with a linear density of 0.0010 kg/m iş 0.40 N. A 100 Hz sinusoidal wave on this string has a wavelength of

Write the expression for displacement for a sinusoidal wave travelling in negative x - direction.

One end of a long string of linear mass density 10^(-2) kg m^(-1) is connected to an electrically driven tuning fork of frequency 150 Hz. The other end passes over a pulley and is tied to a pan containig a mass of 90 kg. the pulley end absorbs all the incoming energy so that reflected waves from this end have neglidible amplitude , At t =0, the left end (fork end ) of the string is at x=0 has a transverse displacement of 2.5 cm and is moving along positive y-direction. the amplitude of the wave is 5 cm. write down the transverse displacement y (in cetimetres) as function of x(in metres) and t (in seconds ) that describes the wave on the string.