29 The pattern of standing waves formed ...

29 The pattern of standing waves formed on a stretched string at two instants of time are shown in Fig. 15.3. The velocity of two waves superimposing to form stationary waves is 360 ms and their frequencies are 256 Hz. •x in m displacement x in m Fig. 15.3 (a) Calculate the time at which the second curve is plotted. (b) Mark nodes and antinodes on the curve. (c) Calculate the distance between A' and C'.

Similar Questions

Explore conceptually related problems

The pattern of standing waves formed on a stretched string at two in -stants of time are shown of time are shown in figure. The velocity of two waves superim-posing to form stationary waves is 360 ms^(-1) and their frequencies are 256 Hz. (a) Calculate the time at which the second curve is plotted. (b) Mark nodes and antinodes on the curve. (c) Calculate the distance between A' and C'

The pattern of standing waves formed on a stretched strinig at two instants of time are shown in figure. The velocity of two waves superimposing to form stationary wave is 360ms^(-1) and their frequencies are 256 Hz. (a) Calculate the time at which the second curve is plotted. ltbr. (b) Mark nodes and antinodes on the curve. (c) Calculate the distance between A^(') and C^(') .

The pattern of standing waves formed on a stretched string at two instants of time are shown in the figure.The velocity of two waves superimposing to form stationary waves in 360ms^(-1) and their frequencies are 256 Hz. Mark nodes and antinodes on the curve.

In a standing wave 4 nodes and 3 antinodes are formed between two fixed end of string of length 6 m. Then the wave length of the standing wave is

In a standing wave 4 nodes and 3 antinodes are formed between two fixed end of string of length 6 m.Then the wave length of the standing wave is

A standing wave having 3 nodes and 2 antinodes are formed between two rigid supports of length 1m. Then the wavelength of the standing wave is

Similar Questions

Recommended Questions