Transversal sine waves with identical amplitude A and wave number k propagate on two separate strings. The two strings are both evenly thick and have exactly the same cross section. In addition, the force used to tighten the two strings is equal. On the other hand, they have different linear mass densities, respectively p1 = 2.2 kg/m and µ2 = 0.68 kg/m on strings Nr. 1 and 2. Mean effect (average effect) passing somewhere on strings Nr. 1 and 2 is respectively P1 and P2. %3D
Transversal sine waves with identical amplitude A and wave number k propagate on two separate strings. The two strings are both evenly thick and have exactly the same cross section. In addition, the force used to tighten the two strings is equal. On the other hand, they have different linear mass densities, respectively p1 = 2.2 kg/m and µ2 = 0.68 kg/m on strings Nr. 1 and 2. Mean effect (average effect) passing somewhere on strings Nr. 1 and 2 is respectively P1 and P2. %3D
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Transcribed Image Text:Ο μιμ2
Transversal sine waves with identical
amplitude A and wave number k propagate
on two separate strings. The two strings are
both evenly thick and have exactly the
same cross section. In addition, the force
used to tighten the two strings is equal. On
the other hand, they have different linear
mass densities, respectively µ1 = 2.2 kg/m
and µ2 = 0.68 kg/m on strings Nr. 1 and 2.
Mean effect (average effect) passing
somewhere on strings Nr. 1 and 2 is
respectively P1 and P2.
How big is the relationship P1/ P2.
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