y (x , t ) = 2 Sin 3.14 x Cos 100 * 3.14 t

x and y are in meters and t is in seconds.

we use the formula in trigonometry *2 Sin A Cos B = Sin (A+B) + Sin (A-B)*

** y (x, t) **= 2 Sin (π x) Cos (100 π t)

= Sin (πx + 100πt) + Sin (πx - 100 πt)

= Sin (πx + 100πt) - Sin (100πt - πx )

= **Sin (100 πt + πx) + Sin (100 πt - πx + π)**

*general formula* for a *standing *wave : * y (x, t) = A Sin (ω t - k x + Ф)*

these are the component waves which are part of the stationary wave.

*component wave 1: y1 (x,t) = sin (π x + 100 π t)*

angular frequency = ω = 100 π radians/sec

frequency = f = 50 Hz = ω/2π Time period: 1/f = 0.02 Sec.

Amplitude = A = 1 m

wave number k = - π rad/meter we have formula ω = k v

velocity v = ω / k = - 100 meters/sec

wavelength λ = v / f = 100/50 meters = 2 meters

this component of the wave is traveling in the negative x direction. so its velocity is negative.

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*component wave *2*: y1 (x,t) = sin ( 100 π t - **π ***x + ***π *)

angular frequency = ω = 100 π radians/sec

frequency = f = 50 Hz = ω/2π Time period: 1/f = 0.02 Sec.

Amplitude = A = 1 m

wave number k = π rad/meter we have formula ω = k v

velocity v = ω / k = 100 meters/sec

wavelength λ = v / f = 100/50 meters = 2 meters

initial phase angle = π radians

this wave is traveling in the positive x direction. so k and v are positive.

But the waves are have a phase difference also.