A 17.0 kg bucket of water is suspended by a very light rope wrapped around a solid uniform cylinder 0.300 m in diameter with mass 13.0 kg. The cylinder pivots on a frictionless axle through its center. The bucket is released from rest at the top of a well and falls 10.8 m to the water. Part A What is the tension in the rope while the bucket is falling? Express your answer with the appropriate units. T= Submit Part B V= μA Part C Value Request Answer With what speed does the bucket strike the water? Express your answer with the appropriate units. t= μA Submit Request Answer Value Units μA Value Units ? What is the time of fall? Express your answer with the appropriate units. ? Units input for part B Units ?

please answer clearly.

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### Problem Description **Part D:** While the bucket is falling, what is the force exerted on the cylinder by the axle? Express your answer with the appropriate units. --- ### Input Box - **n =** - **Value**: Input field for the numerical value. - **Units**: Input field for the units of measurement. ### Interface Elements - **Equation Editor**: Button for inputting equations and symbols. - **Dark Mode**: Toggle button for switching display modes. - **Reset Button**: Resets the input fields. - **Help**: Opens a help dialog for assistance. ### Submission - **Submit**: Button to submit your answer. - **Request Answer**: Option to request the correct answer. ### Additional - Option to "Provide Feedback" about the question or interface.

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### Problem Description A 17.0 kg bucket of water is suspended by a very light rope wrapped around a solid uniform cylinder 0.300 m in diameter with a mass of 13.0 kg. The cylinder pivots on a frictionless axle through its center. The bucket is released from rest at the top of a well and falls 10.8 m to the water. ### Questions **Part A** - What is the tension in the rope while the bucket is falling? - Express your answer with the appropriate units. \[ T = \text{Value} \, \text{Units} \] **Part B** - With what speed does the bucket strike the water? - Express your answer with the appropriate units. \[ v = \text{Value} \, \text{Units} \] **Part C** - What is the time of fall? - Express your answer with the appropriate units. \[ t = \text{Value} \, \text{Units} \] ### Submission - Each part requires a calculated value with correct units. - Options for submitting answers and requesting answers are available. ### Note The problem involves concepts of tension, acceleration, and kinematic equations.