PhysicsLAB Practice Problems
Rotational Kinematics
Topics: On this worksheet you will practice using the basic formulas for rotational motion.


Page Directions The numerical values in this worksheet are randomly generated allowing students the opportunity to conveniently practice, and drill, common situations.

Before beginning any given worksheet, please look over all of the questions and make sure that there are no duplicate answers shown for the same question. If duplicates are present simply refresh the page until every answer is unique.

In order to check an answer (even when you are just starting the worksheet on Question 1) it is necessary to omit any questions that you have not answered. Once you start submitting answers, the page may be checked as many times as necesasary without changing the randomized answers. Relevant scoring will be provided at the top of the page only when you answer all of the questions on your original submission.



Question 1  At t = 0, a pulley rotating on a fixed axle with a constant acceleration has an initial angular velocity of 2.7 rad/sec. After 5.28 seconds, it has completed 16 revolutions. What is its angular acceleration in rad/sec2?
Question 2  In Question #1, what is the pulley's angular velocity at the end of the 5.28 seconds?
Question 3  From Question #2, what is the linear velocity of a point on the rim of the pulley at exactly 5.28 seconds if the pulley's diameter is 36 cm?
Question 4  What is the instantaneous centripetal acceleration experienced by the point on the rim in Question #3?
Question 5  If cord is being wrapped along the edge of the pulley in Question #1 as it turns, how much time would be needed to accumulate 49 meters of cord around the rim?
Question 6  Which of the following graphs of omega vs time correctly protrays the behavior ot this pulley?


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