A tube 1.20 m long is closed at one end. A stretched wire is placed near the open end. The wire is 0.343 m long and has a mass of 9.60 g. It is fixed at both ends and oscillates in its fundamental mode. By resonance, it sets the air column in the tube into oscillation at that column's fundamental frequency. Assume that the speed of sound in air is 343 m/s, find (a) that frequency and (b) the tension in the wire. (a) Number i Units (b) Number i Units <> >

A tube 1.20 m long is closed at one end. A stretched wire is placed near the open end. The wire is 0.343 m long and has a mass of 9.60 g. It is fixed at both ends and oscillates in its fundamental mode. By resonance, it sets the air column in the tube into oscillation at that column's fundamental frequency. Assume that the speed of sound in air is 343 m/s, find (a) that frequency and (b) the tension in the wire. (a) Number i Units (b) Number i Units <> >

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A tube 1.20 m long is closed at one end. A
stretched wire is placed near the open end. The
wire is 0.343 m long and has a mass of 9.60 g. It is
fixed at both ends and oscillates in its fundamental
mode. By resonance, it sets the air column in the
tube into oscillation at that column's fundamental
frequency. Assume that the speed of sound in air is
343 m/s, find (a) that
frequency and (b) the tension in the wire.
(a) Number
i
Units
(b) Number
i
Units
<>

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