Answer 00 6/110 The homogeneous torus and cylindrical ring are released from rest and roll without slipping down the incline. Determine an expression for the velocity difference Udiff which develops between the two objects during the motion as a function of the distance x they have traveled down the incline. Assume that the masses roll straight down the incline and evaluate your expression for the case where a = 0.2R. Which object is in the lead, and does the size of a relative to R ever alter the finishing order? diff 2.18(10-3 xg sin 8, Torus leads PROBLEM 6/110 -R a a 2a

Answer 00 6/110 The homogeneous torus and cylindrical ring are released from rest and roll without slipping down the incline. Determine an expression for the velocity difference Udiff which develops between the two objects during the motion as a function of the distance x they have traveled down the incline. Assume that the masses roll straight down the incline and evaluate your expression for the case where a = 0.2R. Which object is in the lead, and does the size of a relative to R ever alter the finishing order? diff 2.18(10-3 xg sin 8, Torus leads PROBLEM 6/110 -R a a 2a

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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6/110 The homogeneous torus and cylindrical ring are released from rest and roll without slipping down the incline. Determine an expression for the velocity difference
Udiff which develops between the two objects during the motion as a function of the distance x they have traveled down the incline. Assume that the masses roll straight
down the incline and evaluate your expression for the case where a = 0.2R. Which object is in the lead, and does the size of a relative to R ever alter the finishing order?
Answer
diff = 2.18(10-3)/xg sin 8, Torus leads
-R-
PROBLEM 6/110
αα
12a

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Step 2: Drawing the free body diagram

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Step 3: Calculating the velocity of cylindrical ring.

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Step 4: Calculating the velocity of torus

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