A wire stretched between two rigid supports vibrates in its fundamental mode with a frequency of 45 Hz. The mass of the wire is 3.5×10−2 kg and its linear mass density is 4.0×10−2kgm−1 .What is (a) the speed of a transverse wave on the string, and (b) the tension in the string?
(a) Mass of the wire, m=3.5×10−2kg
Linear mass density, μ=ml=4.0×10−2kgm−1
Frequency of vibration, ν = 45 Hz
∴ Length of the wire, l=mμ=3.5×10−24.0×10−2=0.875m
The wavelength of the stationary wave (λ) is related to the length of the wire by the relation:
λ=2ln
Where, n =Number of nodes in the wire.
For fundamental node, n = 1:
λ=2lλ=2×0.875=1.75m
The speed of the transverse wave in the string is given as:
v=vλ=45×1.75=78.75m/s
(b) The tension produced in the string is given by the relation:
T=v2μ=(78.75)2×4.0×10−2=248.06N