[" A string of length "1m" and linear ma...

[" A string of length "1m" and linear mass "],[" density "0.01kgm^(-1)" is stretched to a "],[" tension of "100N" .When both ends of "],[" the string are fixed,the three lowest "],[" frequencies for standing wave are "f_(1),f_(2)],[" and "f_(3)" .When only one end of the string "],[" is fixed,the three lowest frequencies for "],[" standing wave are "n_(1)n_(2)" and "n_(3)" .Then "]

Similar Questions

Explore conceptually related problems

A sting of length 1m and linear mass density 0.01 kg//m is stretched to a tension of 100 N. When both ends of the string are fixed, the three lowest frequencies for standing wave are f_1, f_2 and f_3 . When only one end of the string is fixed, the three lowest frequencies for standing wave are n_1, n_2 and n_3 . Then,

A string of length 0.5m and linear density 10^(-4) kg/m is stretched under a tension of 100 N. If the frequency of the vibration of the string is 4000 Hz, how many loops are formed on the string?

If n_(1), n_(2) and n_(3) , be the frequencies of the segments of stretched string, find out the frequency of the string itself in terms of n_(1),n_(2), and n_(3)

A stretched string fixed at both end has n nods, then the lengths of the string is

A string of length 10.0 m and mass 1.25kg stretched with a tension of 50N. If a transverse pulse is created at one end of the string, how long does it take to reach the other end ?

What are the three lowest frequencies for standing waves on a wire 10m long having a mass of 100g, which is stretched under a tension of 1600N?

A string has a length of 0.4m and a mass of0.16g.If the tension in the string is 70N,what are the three lowest frequencies it produces when plucked ?

A 2.0m long string with a linear mass density of 5.2xx10^(-3) kg m^(-1) and tension 52N has both of its ends fixed. It vibrates in a standing wave patten with four antinodes. Frequency of the vibraion is :-

Similar Questions

Recommended Questions