Answer:(a) 11.0 sLet's start by writing the equations of the forces along the horizontal and vertical direction. We need to resolve the tension along the cable, T, along the two directions. Therefore we get:- Vertical direction: (1)where T is the tension in the cable is the angle with the verticalm is the mass of the passenger and the seat is the acceleration of gravity- Horizontal direction: here the component of the tension in the cable provides the centripetal force, so we can write (2)where is the angular velocity is the distance from the central shaft (the radius of the circular path)Dividing eq.(2) by eq.(1), we getAnd re-arranging the equation, we can find the angular velocity:And the time for one revolution is equal to the period, so:(b) NoAs we have seen previously, the equation obtained for the angle is given bywhere is the angular velocityr is the radius of the circular pathg is the acceleration of gravityAs we can see, in this equation m (the mass of the passenger) does not appear: this means that the angle does not depend on the mass (or the weight) of the passeng
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