Author Question: A mass of 385 g hangs from one end of a string that goes over a pulley with a moment of inertia of ... (Read 99 times)

HCHenry · **on:** Jul 29, 2018

A mass of 385 g hangs from one end of a string that goes over a pulley with a moment of inertia of 0.0125 kgm2 and a radius of 15.0 cm. A mass of 710 g hangs from the other end.

When the masses are released, the larger mass accelerates downward, the lighter mass accelerates upward, and the pulley turns without the string slipping on the pulley. What is the tension in the string on the side of the 710-g mass? A) 9.77 N
B) 6.87 N
C) 5.59 N
D) 4.41 N
E) 3.68 N

Question 2

State the condition for an object to be in translational equilibrium.

What will be an ideal response?

tennis14576 · **Reply #1 on:** Jul 29, 2018

Answer to Question 1

C

Answer to Question 2

The net force acting on the object must be zero.

HCHenry · **Reply 2 on:** Jul 29, 2018

Thanks for the timely response, appreciate it

isabelt_18

YES! Correct, THANKS for helping me on my review

Author Question: A mass of 385 g hangs from one end of a string that goes over a pulley with a moment of inertia of ... (Read 99 times)

HCHenry

A mass of 385 g hangs from one end of a string that goes over a pulley with a moment of inertia of ...

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tennis14576

A mass of 385 g hangs from one end of a string that goes over a pulley with a moment of inertia of ...

HCHenry

isabelt_18