Prob. 4 Sound waves travel at 6900m/s on a gold rod of length 2m . (i) Write the general wave equation of standing waves that can travel on this rod free on one end and clamped at the other. (ii) Find first two standing wave frequencies on the rod. Sketch the figures. (ii) Study the case the golden rod is clamped at both ends.
Prob. 4 Sound waves travel at 6900m/s on a gold rod of length 2m . (i) Write the general wave equation of standing waves that can travel on this rod free on one end and clamped at the other. (ii) Find first two standing wave frequencies on the rod. Sketch the figures. (ii) Study the case the golden rod is clamped at both ends.
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Transcribed Image Text:Prob. 4 Sound waves travel at 6900m/s on a gold rod of length 2m.
(i)
Write the general wave equation of standing waves that can travel on this rod free on
one end and clamped at the other.
(ii)
Find first two standing wave frequencies on the rod. Sketch the figures.
(iii)
Study the case the golden rod is clamped at both ends.
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