Learning Goal: To practice Problem-Solving Strategy 9.1 Rotational Energy. The magnitude of the velocity of the stone is the same as that of the point of cont The magnitude of the velocity of the stone is greater than that of the point of cont A frictionless pulley has the shape of a uniform solid disk of mass 6.00 kg and radius 19.0 cm . A3.20 kg stone is attached to a very light wire that is wrapped around the rim of the pulley(Figure 1), and the stone is released from rest. As it falls down, the wire unwinds without stretching or slipping, causing the pulley to rotate. How far must the stone fall so that the pulley has 4.30 J of kinetic energy? Submit Previous Answers Completed EXECUTE the solution as follows Figure 1 of 1 • Part C How far must the stone fall so that the pulley has 4.30 J of kinetic energy? Express your answer numerically in meters to three significant figures. pulley || ? h = m stone Submit Request Answer

Please help w part C. TIA

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TIIG TIIayiIILIUC VI LI IG VGIULILY vI LIIG JLUIIG IS IGOO LIIGII LI Ial VI LIIE PUIIL UI LUI ILOLL. Learning Goal: To practice Problem-Solving Strategy 9.1 Rotational Energy. The magnitude of the velocity of the stone is the same as that of the point of contact. The magnitude of the velocity of the stone is greater than that of the point of contact. A frictionless pulley has the shape of a uniform solid disk of mass 6.00 kg and radius 19.0 cm . A 3.20 kg stone is attached to a very light wire that is wrapped around the rim of the pulley(Figure 1), and the stone is released from rest. As it falls down, the wire unwinds without stretching or slipping, causing the pulley to rotate. How far must the stone fall so that the pulley has 4.30 J of kinetic energy? Submit Previous Answers Completed EXECUTE the solution as follows Figure 1 of 1 Part C How far must the stone fall so that the pulley has 4.30 J of kinetic energy? Express your answer numerically in meters to three significant figures. pulley ? h = stone Submit Request Answer