PROCEDURE - HOLLOW CYLINDER Press the reset button. Change the settings to create a hollow cylinder: Location: Earth Fal
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PROCEDURE - HOLLOW CYLINDER Press the reset button. Change the settings to create a hollow cylinder: Location: Earth Falling mass, m= 100 g Pulley mass, M = 500g Outer Radius, R = 100 mm Inner Radius to 95 mm. Use this to calculate the theoretical moment of inertia (also known as rotational mass) of the hollow cylinder. Show your work!
ANALYSIS-HOLLOW CYLINDER 1. Use the expression for tension you derived in the Solid Pulley exercise to calculate the tension in the cable. Show your work: 4. Calculate the torque applied to the pulley: T= 5. Write Newton's 2nd law for the pulley. Use this to solve for the rotational mass of the pulley. Show your work: 1= 6. Calculate the percent error with the theoretical moment of inertia that you found in the procedure and the experimental you found in the previous step. Physics 241 Extension: A 200 g solid pulley has a radius of 4 cm and a 50 g mass hanging off a cable on one side. What is the tension in the cable when the system is released from rest? Use kinematics.