how does each frequency with 500 grams compare with the frequencyfor the standin

Question

how does each frequency with 500 grams compare with the frequencyfor the standing wave with the same number of anti-nodes when therewere 300 grams suspended from the end of the string.


I don't understand if mass has any relation to frequency..I read inan article for a pendulum exp which was similar to this one, that"Mass doesn't affect the motion at all." However, from my labresults the initial one for 1 anti-node, had a frequency of 13 forthe 300 grams and 18 for the 500 grams, basically there wasslightly higher frequency for the 500 grams then the 300 groups.How can I explain this scientifically? Thanks

Any ideas?

Thanks

Explanation / Answer

The masses 300 and 500 g provide the tension in thestring. v = (F / (m / l))    is the equation forthe speed of the wave in the string where F = tension instring v2 / v1 = (F2 /F1)     since the mass per unitlength of the string is the same in both measurements v2 / v1 = (500 g / (300 g))= 1.3      for the ratios of the speeds ofthe two different waves Since v = f       f2 / f1 = v2 /v1   1.3      thecalculated ratio of the frequencies ( is the same in both cases since the distance betweennodes is the same in both measurements) f2 / f1 = 18 / 13 =1.4      the measured ratio of thefrequencies

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