Question: A standing wave is established in a 1.00 m long string fixed at both ends. The speed of a wave in the string is 100.0

A standing wave is established in a 1.00 m long string fixed at both ends. The speed of a wave in the string is 100.0 mis. The first line is done as an example (do not worry about significant digits). Be sure to include an accurate drawing, show all calculations and include units when substituting in values. Drawing at of Wavelength Frequency loops X - 20 m # 100.0 m/s/2.0 m - 50 HZ Drawing # of loops Wavelength Frequency 1 A = 20m there are two half- - 100.0 m/s/2.0 m loops If the length of the medium is L and the number of loops is N, what is a formula for the wavelength? What would be the formula for the frequency, f? A standing wave is established in a 100 m long string free at both ends. The speed of a wave in the string is 100.0 m/s. The first line is done as an example (do not worry about significant digits). Be sure to include an accurate drawing, show all calculations and include units when substituting in values. If the length of the medium is L and the number of loops is N, what is a formula for the wavelength? What would be the formula for the frequency, f

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