Consider standing wave formed due to superposition of two plane waves having the same amplitude, frequency and moving in opposite direction. Mark the correct statements:

The two waves of the same frequency moving in opposite direction give rise to

Two waves are propagating with same amplitude and nearly same frequency in opposite direction, they result in

For superposition of two waves, the following is correct

The two waves of same frequency moving in the same direction give rise to

Consider a standing wave formed on a string . It results due to the superposition of two waves travelling in opposite directions . The waves are travelling along the length of the string in the x - direction and displacements of elements on the string are along the y - direction . Individual equations of the two waves can be expressed as Y_(1) = 6 (cm) sin [ 5 (rad//cm) x - 4 ( rad//s)t] Y_(2) = 6(cm) sin [ 5 (rad//cm)x + 4 (rad//s)t] Here x and y are in cm . Answer the following questions. Amplitude of simple harmonic motion of a point on the string that is located at x = 1.8 cm will be

Consider a standing wave formed on a string . It results due to the superposition of two waves travelling in opposite directions . The waves are travelling along the length of the string in the x - direction and displacements of elements on the string are along the y - direction . Individual equations of the two waves can be expressed as Y_(1) = 6 (cm) sin [ 5 (rad//cm) x - 4 ( rad//s)t] Y_(2) = 6(cm) sin [ 5 (rad//cm)x + 4 (rad//s)t] Here x and y are in cm . Answer the following questions. Figure 7.104( c) shows the standing wave pattern at t = 0 due to superposition of waves given by y_(1) and y_(2) in Figs.7.104(a) and (b) . In Fig. 7.104 (c ) , N is a node and A and antinode . At this instant say t = 0 , instantaneous velocity of points on the string

A stationary wave is formed by superposition of two constituent waves, having amplitude, frequency and velocity as 10 cm, 40 Hz and 200 cm/s, respectively. Write the equation of the stationary wave.

S_(1) : Sound travel faster in water than in air. S_(2) : The fundamental frequency of closed organ pipe increases if its diameter is increased. S_(3) : Beats are created by superposition of two sound waves with the same amplitude moving in same directions with slightly different frequncies.

A travelling wave of amplitude 5 A is partically reflected from a bounday with the amplitude 3A . Due to superposition of two waves with different amplitude in opposite direction a standing wave pattern is formed. Datermine the ratio of amplitude at antinode to node.