Find beat frequency if the motion of two particles is given by
`y_1 = 0.25sin(310 t)`
`y_2 =0.25 sin (316t)`

In case of superposition of waves (at x = 0). y_1 = 4 sin(1026 pi t) and y_2 = 2 sin(1014 pi t)

Determine the resultant of two waves given by y_(1) = 4 sin(200 pi t) and y_(2) = 3 sin(200 pi t + pi//2) .

A particle is subjected to two simple harmonic motions given by x_(1) = 2.0sin (100 pi t) and x_(2) = 2.0sin (120pi t + pi //3) where, x is in cm and t in second. Find the displacement of the particle at (a) t = 0.0125 , (b) t = 0.025 .

two particle of medium disturbed by the wave propagation are at x_(1)=0cm and x_(2)=1 cm . The respective displacement (in cm) of the particles can be given by the equation: y_(1)=2 sin 3pi t, y_(2) sin (3pi t-pi//8) the wave velocity is

two particle of medium disturbed by the wave propagation are at x_(1)=0 and x_(2)=1 cm . The respective displacement (in cm) of the particles can be given by the equation: y_(1)=2 sin 3pi t, y_(2) sin (3pi t-pi//8) the wave velocity is

The equation of motion of a particle starting at t=0 is given by x=5sin(20t+π/3) , where x is in centimeter and t is in second. When does the particle come to rest for the second time?

Equation of motion in the same direction is given by y_(1) =A sin (omega t - kx), y_(2) = A sin ( omega t - kx- theta ) . The amplitude of the medium particle will be

A particle is subjected to two simple harmonic motions given by x_1=2.0sin(100pit)and x_2=2.0sin(120pit+pi/3) , where x is in centimeter and t in second. Find the displacement of the particle at a. t=0.0125, b. t= 0.025.

Two harmonic waves are represented in SI units by y_1(x,t) = 0.2 sin (x-3.0t) and y_2(x,t) = 0.2 sin (x- 3.0t + phi) (a) Write the expression for the sum y=y_1 + y_2 for phi = pi/2 rad. (b) Suppose the phase difference phi between the waves is unknown and the amplitude of their sum is 0.32 m, what is phi ?

The displacement of a particle from its mean position (in metre) is given by y=0.2 "sin" (10 pi t+ 1.5 pi) "cos" (10 pi t+1.5 pi) The motion of the particle is