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Question
A light wire AB of length 10 cm can slide on a vertical frame as shown in figure. There is a film of soap solution trapped between the frame and the wire. Find the load W that should be suspended from the wire to keep it in equilibrium. Neglect friction. Surface tension of soap solution = 25 dyne cm-1. Take g = 10 m s-2
A light wire AB of length 10 cm can slide on a vertical frame as shown in figure. There is a film of soap solution trapped between the frame and the wire. Find the load W that should be suspended from the wire to keep it in equilibrium. Neglect friction. Surface tension of soap solution = 25 dyne cm-1. Take g = 10 m s-2
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Solution
The correct option is D 0.5 gm
Soap solution film will be formed on both sides of the frame. Each film is in contact with the wire along a distance of 10 cm. the force exerted by the film on the wire
=2×(10cm)×(25 dyne cm−1)
=500 dyne=5×10−3N
The force acts vertically upward and should be balanced by the load. Hence the load that should be suspended is5×
10−3N. The mass of the load should be 5×10−3N10ms−2=5×10−4 Kg
=0.5g
0.5 gm
Soap solution film will be formed on both sides of the frame. Each film is in contact with the wire along a distance of 10 cm. the force exerted by the film on the wire
=2×(10cm)×(25 dyne cm−1)
=500 dyne=5×10−3N
The force acts vertically upward and should be balanced by the load. Hence the load that should be suspended is5×
10−3N. The mass of the load should be 5×10−3N10ms−2=5×10−4 Kg
=0.5g
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