The figure shown at time `t = 0` second, a rectangular and triangular pulse on a uniform wire are approcaching other. The pulse speed is `0.5 cm//s` . The resultant pulse at `t = 2` second is

Figure shows a rectangular pulse and a triangular pulse approaching each other along x-axis. The pulse speed is 0.5 cm/s. What is the resultant displacement of medium particles due to superposition of waves at x = 0.5 cm and t = 2 sec.

Two pulses on a string approach each other at speeds of 1m//s what is the shape of the string at t=6s?

In the figure, the position time graph of a particle of mass 0.1 kg is shown. The impulse at t=2 second is :

In the figure shown q is in coulomb and t in second. At time t=1 s

The figure shows the snapshot at time t = 0 of a transverse pulse travelling on a string in positive x direction. (a) Sketch the pulse at a slightly later time. (b) With the help of the given sketch draw a graph of velocity of each string segment versus position. Take upward direction as positive.

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

Following figure shows two wave pulses at t = 0 travelling on a string in opposite directions with the same wave speed 50 cm s1. Sketch the shape of the string at t = 4 ms, 6 ms, 8 ms, and 12 ms.

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

Two triangular wave pulses are travelling toward each other on a stretched string as shown in Fig . 7.25. Both pulses are identical to each other and travels at 2.00 cm//s . The leading edges of the pulses are 1.00 cm apart at t = 0 . Sketch the shape of the string at t = 0.250 s, t = 0.500 s , t = 0.750 s, t = 1.000 s and t = 1.250 s .