An inventor designs a pendulum clock using a bob with mass m at the end of a thin wire of length L. Instead of swinging back and forth, the bob is to move in a horizontal circle at constant speed v, with the wire making a fixed angle b with the vertical direction . This is called a conical pendulum because the suspending wire traces out a cone. Find the tension F in the wire and the period T (the time for one revolution of the bob).

An inventor designs a pendulum clock using a bob with mass m at the end of a thin wire of length L. Instead of swinging back and forth, the bob is to move in a horizontal circle at constant speed v, with the wire making a fixed angle b with the vertical direction . This is called a conical pendulum because the suspending wire traces out a cone. Find the tension F in the wire and the period T (the time for one revolution of the bob).

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Question

An inventor designs a pendulum clock using a bob with mass m at the
end of a thin wire of length L. Instead of swinging back and forth, the
bob is to move in a horizontal circle at constant speed v, with the wire
making a fixed angle b with the vertical direction . This
is called a conical pendulum because the suspending wire traces out a
cone. Find the tension F in the wire and the period T (the time for one
revolution of the bob).

Expert Solution