A wire of length L=0.8 m is wire stretched by hanging a mass of M=0.05 kg. After applying an alternating current with a frequency of f, u magnet a constant magnetic field is produced by the U-type magnet. Under these conditions, resonance occurs and Bower source hanging mass antinodes and nodes are formed in the wire as shown in the figure. a) Write the number of antinodes (N) formed in the wire. b) Calculate the frequency of alternating current, f, if the mass per unit length of the wire is u=1.25x10° kg/m. (g= 10 m/s³)
A wire of length L=0.8 m is wire stretched by hanging a mass of M=0.05 kg. After applying an alternating current with a frequency of f, u magnet a constant magnetic field is produced by the U-type magnet. Under these conditions, resonance occurs and Bower source hanging mass antinodes and nodes are formed in the wire as shown in the figure. a) Write the number of antinodes (N) formed in the wire. b) Calculate the frequency of alternating current, f, if the mass per unit length of the wire is u=1.25x10° kg/m. (g= 10 m/s³)
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Transcribed Image Text:A wire of length L=0.8 m is
wire
stretched by hanging a mass of M=0.05 kg. After
applying an alternating current with a frequency of f,
U magnet
a constant magnetic field is produced by the U-type
magnet. Under these conditions, resonance occurs and
Bower source
hanging mass
antinodes and nodes are formed in the wire as shown in the figure. a) Write the number of antinodes
(N) formed in the wire. b) Calculate the frequency of alternating current, f, if the mass per unit length
of the wire is µ=1.25x10° kg/m. (g= 10 m/s³)
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