Standing waves are produced by superposition of two waves
`y_(1) = 0.05 sin(3pi t - 2x),`
`y_(2) = 0.05 sin(3pi t +2x)`
where x and y are measured in metre and t in second. Find the amplitude of the particle at x = 0.5m.

Standing waves are produced by superposition of two waves y_(1) = 0.05 sin(3pi t - 2x), y_(2) = 0.05 six(3pi t +2x) where x and y are measured in metre and t in second. Find the amplitude of the particle at x = 0.5m.

Standing waves are produced by the superposition of two waves y_(1)=0.05 sin (3 pit-2x) and y_(2) = 0.05 sin (3pit+2x) Where x and y are in metres and t is in second. What is the amplitude of the particle at x = 0.5 m ? (Given, cos 57. 3 ^(@) = 0. 54)

The standing waves are set up by the superimposition of two waves: y_(1)=0.05 sin (15pit-x) and y_(2)=0.05 sin (15pit+x) , where x and y are in metre and t in seconds. Find the displacement of particle at x=0.5m.

Stationary waves are set up by the superposition of two waves given by y_(1)=0.05sin(5pit-x) and y_(2)=0.05sin(5pit+x) where x and y are in metres and t is second. Find the displacement of a particle situated at a distance x=1m.

A stationary wave is formed by superposition of two waves given by 64.88 y_(1) = 0.02 sin (3pi t - x) and y_(2) = 0.02 sin (3pi t + x) where x, y are in metres and t is in seconds. Determine the displacement of a particle situated at a distance of x = 0.5 m.

On the superposition of two waves [y_1 = 3 sin (50 pi t - 20x)] and [y_2 = 3sin (50pi t -20 x +(pi/3)] the equation resultant wave will be

Two simple harmonic waves are represented by the equations given as y_(1) = 0.3 sin(314 t - 1.57 x) y_(2) = 0.1 sin(314 t - 1.57x + 1.57) where x, y_(1) and y_(2) are in metre and t is in second, then we have

A wave is represented by the equation, y = 0.1 sin (60 t + 2x) , where x and y are in metres and t is in seconds. This represents a wave

The wave described by y = 0.25 "sin"(10 pi x - 2pit) , where x and y are in metres and t in seconds , is a wave travelling along the:

Stading waves are produced by the superposition of two waves give by y_(1) 0.4 sin 2pi ((t)/(0.6)-(x)/(0.3)) and y_(2)=0.4 sin 2 pi ((t)/(0.6) +(x)/(0.3)) where all the quantities are expressed in SI units. What is the amplitude of a particle at x=0.5m ?