Derive the expression for the displacement of a transverse
Answers
Answer:
In case of transverse wave displacement is given as: y(x,t) where x=propagation of the wave along x-axis, and particles oscillates along y-axis. Therefore y(x,t)= A sin(kx – ωt + φ). This is the expression for displacement..
Explanation:
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Answer:
In case of transverse wave displacement is given as: y(x,t) where x=propagation of the wave along x-axis, and particles oscillates along y-axis. Therefore y(x,t)= A sin(kx – ωt + φ). This is the expression for displacement.The transverse displacement (y) of a wave is given as a function of position (x in meters) and time (t in seconds) by the expression y(x,t)=ymsin(4.04+261t+0.333x).
Explanation:
Transverse waves commonly occur in elastic solids; the oscillations in this case are the displacement of the solid particles away from their relaxed position, in directions perpendicular to the propagation of the wave. . In seismology, shear waves are also called secondary waves or S-waves.
Extra info:
The Amplitude is the measurement of maximum displacement. The Wavelength is the distance of one complete wave cycle. For example; the distance from crest to crest or trough to trough would be 1 wavelength. 2- A Crest is the maximum upwards displacement in a Transverse wave.
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