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Derive an expression for equation of stationary wave on a stretched string.

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When two progressive waves having the same amplitude, wavelength and speed propagate in opposite directions through the same region of a medium, their superposition under certain conditions creates a stationary interference pattern called a stationary wave.

Consider two simple harmonic progressive waves, of the same amplitude A, wavelength λ and frequency n = ω/2π, travelling on a string stretched along the x-axis in opposite directions. They may be represented by

y= A sin (ωt − kx)   (along the + x-axis) and  ….(1)

y2 = A sin (ωt + kx) (along the — x-axis)  …..(2)

where k = 2π/λ is the propagation constant.

By the superposition principle, the resultant displacement of the particle of the medium at the point at which the two Waves arrive simultaneously is the algebraic sum

y = y+ y= A[sin (ωt − kx) + sin (ωt + kx)]

Using the trigonometrical identity,

Sin C + sin D = 2 sin\((\frac{C−D}{2})\)  cos\((\frac{C−D}{2})\)

y = 2A sin ωt cos (−kx)

= 2A sin ωt cos kx      ….[… cos (−kx) = cos (kx)]

= 2A cos kx sin ωt  ….(3)

 y = R sin ωt, ...(4)

where R = 2A cos kx.  ….(5)

Equation (4) is the equation of a stationary wave.

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