so Fig. 17.12 po has a mass of 4.5 g. Ho...

so Fig. 17.12 po has a mass of 4.5 g. How much time will ced at the floor to reach the pulley? Take g=10ms transverse disturbance produced at the floor to reach the pulley Tau 2.5 cm 2.0 m 2 kg Fig. 17.13 5. A copper wire 2.4 mm in diameter is 3 m long and is used to suspend a 2 kg mass from a beam. If a transverse disturbance is sent along the wire by striking it lightly with a pencil, how fast will the

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A copper wire 2.4 mm in diameter is 3 m long and is used to suspend a 2 kg mass from a beam. If a trasverse disturbance is sent along the wire by striking it lightly with a pencil, how fast will the disturbance travel? The density of copper is 8920 kg//m^(3) .

A copper wire 2.4 mm in diameter is 3 m long and is used to suspend a 2 kg mass from a beam. If a trasverse disturbance is sent along the wire by striking it lightly with a pencil, how fast will the disturbance travel? The density of copper is 8920 kg//m^(3) .

In the arrangement shown in figure, the string has a mass of 4.5 g. How much time will it take for a transverse disturbance produced at the floor to reach the pulley ? Take g=10ms^-2 .

In the arrangement shown in figure, the string has a mass of 4.5 g. How much time will it take for a transverse disturbance produced at the floor to reach the pulley ? Take g=10ms^-2 .

In the arrangement shown in figure, the string has a mass of 4.5 g. How much time will it take for a transverse disturbance produced at the floor to reach the pulley ? Take g=10ms^-2 .

In the arrangement shown in figure, the string has a mass of 4.5 g. How much time will it take for a transverse disturbance produced at the floor to reach the pulley ? Take g=10ms^-2 .

In the arrengement shown in figure, the string has a mass of 4.5g . How much time will it take for a transverse disturbance produced at the floor to reach the pulley? Take g = 10ms^(-2) .

In the arrengement shown in figure, the string has a mass of 4.5g . How much time will it take for a transverse disturbance produced at the floor to reach the pulley? Take g = 10ms^(-2) .

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