A plane wave `y=A sin omega(t-x/v)` undergo a normal incidence on a plane boundary separating medium
`M_1 and M_2` and splits into a reflected and transmitted wave having speeds `V_1 and V_2` then

A travelling wave has speeds 50 m//s and 200 m//s in two different media A and B . Such a wave travelling through A , gets incident normally on a plane boundary , separating A and B . Find the ratio of amplitudes of the reflected anf transmitted waves.

A transverse wave y=A sin omega (x/V_(1) -t) is travelling in a medium with speed V_(1) . Plane x = 0 is the boundary of the medium. For x gt 0 there is a different medium in which the wave travels at a different speed V_(2) . Part of the wave is reflected and part is transmitted. For x lt 0 the wave function is described as y_(-)=A_(1) sin omega (x/V_(1)-t)+A_(2) sin omega (x/V_(2)+t) while for x gt 0, y_(+)=A_(3) sin omega(x/V_(2)-t) (a) Using the fact that the wave function must be continuous at x = 0 , show that A_(1) – A_(2) = A_(3) (b) Using the fact that (del y)/(del x) must be continuous at x = 0 , prove that V_(2)/V_(1) A_(1)=A_(3)-A_(2) (c) Show that A_(3)=(2V_(2)A_(1))/(V_(1)+V_(2)) and A_(2)=(V_(1)-V_(2))/(V_(1)+V_(2))A_(1)

A plane wave is represented by x=1.2 sin (3 14 t + 12.56 y) Where x and y are distances measured along in x and y direction in meters and t is time in seconds. This wave has

An e.m. wave is travelling through a medium of refractive index mu_1 , and is incident on the boundary of a medium of refractive index mu_2 . IF the wave reflects at the boundary

The harmonic wave y_i = (2.0 xx 10^(-3)) cos pi (2.0x - 50t) travels along a string towards a boundary at x=0 with a second string. The wave speed on the second string is 50 m//s . Write expressions for reflected and transmitted waves. Assume SI units.

The equation of a plane progressive wave is y=0.04sin4pi[t-(x)/(20)] . When it is reflected at a denser medium (medium with lesser wave velocity) at x=0, intensity of reflected wave is 81% of that of the incident wave. The equation of the relfected wave is:

A wave travelling along positive x -axis is given by y = A sin (omega t- kx) . If it is reflected from rigid boundary such that 80% amplitude is reflected, then equation of reflected wave is

A plane wave y =a sin (bx + ct) is incident on a surface. Equation of the reflected wave is y' = a' sin(ct-bx) . Which of the following statements is not correct ?

A plane electromagnetic wave is incident on a plane surface of area A, normally and is perfectly reflected. If energy E strikes the surface in time t then average pressure exerted on the surface is (c = speed of light)