The displacement of the medium in a soun...

The displacement of the medium in a sound wave is given by the equation `y_(1) = A cos(ax + bt)` where `A`, `a and b` are positive constants. The wave is reflected by an obstacle situated at `x = 0`. The intensity of the reflected wave is `0.64` times that of the incident wave.
(a) What are the wavelength and frequency of incident wave?
(b) Write the equation for the reflected wave.
( c ) In the resultant wave formed after reflection, find the maximum and minimum values of the particle speeds in the medium.
(d) Express the resultant wave as a superposition of a standing wave and a travelling wave. What are the positions of the antinodes of the standing wave ? What is the direction of propagation of travelling wave?

the wavelength and frequency of the wave are `2pi"/"a " and " b"/"2pi` respectively

the amplitude of the reflected wave is 0.8 A

the resultant wave formed after reflection is `y= A cos(ax+bt)+[-0.8 A cos (ax-bt)] " and " V_(" max ")` (maximum particle speed) is 1.8 bA

the equation of the standing wave so formed is `y= 1.6 A sin ax cos bt`.

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