Base your answers to questions 94 the information and diagram below. A 1.00-kilogram sphere M, suspended by a string from point P, is lifted to a height h. The sphere is released and passes through the lowest point in its swing at a speed of 10.0 meters per second. [Neglect friction.] 10.0 m M. 1.00 kg 94. Calculate the height from which the sphere was released. 95. Calculate the magnitude of the centripetal force on the sphere as it passes through the lowest point in its swing. 96. The magnitude of the centripetal force on the sphere could be halved as it passes through the lowest point in its swing by doubling the (1) weight of the sphere, only (2) length of the string, only (3) height h and the weight of the sphere (4) the length of the string and height h

please help with questions 94,95,96 and 97 altogether because they are for one whole problem

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97. Compared to the sphere's speed through the when released from 2h would be h, the sphere's speed through the lowest point lowest point of its swing when released from (1) lower (2) greater (3) the same

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Base your answers to questions 94 through the information and diagram below. A 1.00-kilogram sphere M, suspended by a string from point P, is lifted to a height h. The sphere is released and passes through the lowest point in its swing at a speed of 10.0 meters per second. [Neglect friction.] 10.0 m M. 1.00 kg 94. Calculate the height from which the sphere was released. 95. Calculate the magnitude of the centripetal force on the sphere as it passes through the lowest point in its swing. 96. The magnitude of the centripetal force on the sphere could be halved as it passes through the lowest point in its swing by doubling the (1) weight of the sphere, only (2) length of the string, only (3) height h and the weight of the sphere (4) the length of the string and height h