In a standing wave, node is a point of

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 stationary longitudinal wave, nodes are points of

Assertion: In a standing wave x=0 is a node. Then, total mechanical energy lying between x=0 and x=(lambda/8) is not equal to the energy lying between x=lambda/8 and x=lambda/4 . Reason: In standing waves different particles oscillate with different amplitudes.

Statement I : In a standing wave on a string , the spacing between nodes is Delta x . If the tension in string is increased wave same as before , then the separation between nearest nodes will be increased. Statement II : Spacing between nodes ( consecutive) in the standing wave is equal to half of the wavelength of component waves.

In a standing wave pattern in a vibrating air column, nodes are formed at a distance of 4.0 cm. If the speed of sound in air is 328 ms^-1 what is the frequency of the source ?

In a standing wave particles at the positions A and B, have a phase difference of

Let the two waves y_(1) = A sin ( kx - omega t) and y_(2) = A sin ( kx + omega t) from a standing wave on a string . Now if an additional phase difference of phi is created between two waves , then

Spacing between two successive nodes in a standing wave on a string is x . If frequency of the standing wave is kept unchanged but tension in the string is doubled, then new sapcing between successive nodes will become:

Which of the following travelling wave will produce standing wave , with nodes at x = 0 , when superimosed on y = A sin ( omega t - kx)

Which of the following travelling wave will produce standing wave , with nodes at x = 0 , when superimosed on y = A sin ( omega t - kx)