A wave pulse on a string on a string has the dimension shown in figure. The wave speed is v=1 cm /s . If point O is a free end. The shape of wave at time t = 3s si

A wave pulse on a string has the dimensions shown in figure. The wave speed is v=1 cm//s . (a) If point O is a fixed end, draw the resultant wave on the string at t=3 s and t=4 s. (b) Repeat part (a) for the case in which O is a free end.

A wave pulse on a string has the dimensions shown in Fig.7.24 at t = 0 . The wave speed is 5.0 m//s . (a) If point O is fixed end , draw the total wave on the string at t = 1.0 ms , 2.0 ms , 3.0 ms , 4.0 ms , 5.0 ms , 6.0 ms and 7.0 ms . (b) Repeat part (a) for the case in which point O is a free end .

Snapshot of a string carrying a progressive wave is shown in figure at time t = 0. The wave moves along positive x - axis:

For the wave shown in figure, write the equation of this wave if its position is shown at t= 0 . Speed of wave is v = 300m//s .

A wave pulse is travelling on a string with a speed v towards the positive X-axis. The shape of the string at t = 0 is given by g(x) = A sin(x /a) , where A and a are constants. (a) What are the dimensions of A and a ? (b) Write the equation of the wave for a general time 1, if the wave speed is v.

Fig. 144.9 shops to wave pulses travelling along a string in the opposite directions. The velocity of the wave is 3 m/s and the pulses are 9cm apart. Find what has hap-pened to the energy at t=1.5s.

A wave pulse is generated in a string that lies along x- axis. At the points A and B, as shown in the figure, if R_A and R_B are the ratio of wave speed to the particle speed respectively then:

A standing wave is produced on a string on a string clamped at one end and free at the other. The length of the string

A transverse sine wave of amplitude 10 cm and wavelength 200 cm travels from left to right along a long horizontal stretched, string with a speed of 100 cm/s. Take the origin at left end of the string. At time t = 0 the left end of the string is at the origin and is moving downward. Then the equation of the wave will be ( in CGS system )

If at t = 0 , a travelling wave pulse on a string is described by the function. y = (6)/(x^(2) + 3) What will be the waves function representing the pulse at time t , if the pulse is propagating along positive x-axis with speed 4m//s ?