Vector Mechanics For Engineers
Vector Mechanics For Engineers
12th Edition
ISBN: 9781259977305
Author: BEER, Ferdinand P. (ferdinand Pierre), Johnston, E. Russell (elwood Russell), Cornwell, Phillip J., SELF, Brian P.
Publisher: Mcgraw-hill Education,
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Chapter 19, Problem 19.159RP
To determine

The centroidal mass moment of inertia.

The centroidal radius of gyration.

Expert Solution & Answer
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Answer to Problem 19.159RP

The centroidal mass moment of inertia is 0.76lbfts2/rad.

The centroidal radius of gyration is 8.66in.

Explanation of Solution

Given information:

The weight of the wheel is 47lb, the torsional spring constant of the wire is 0.40lbin/rad and the period of the oscillation is 30s.

Write the expression for the centroidal moment of inertia.

I=Kt(T2π)2 ...... (I)

Here, the torsional spring constant is Kt and the time period is T.

Write the expression for the centroidal radius of the gyration.

k=IgW

Here, the acceleration due to gravity is g and the weight of the wheel is W.

Calculation:

Substitute 0.40lbin/rad for Kt, and 30s for T in Equation (I):

I=0.40lbin/rad(30s2π)2=0.40lbin/rad×112lbft/rad1lbin/rad×22.8s2=0.76lbfts2/rad

Substitute 0.76lbfts2/rad for I, 32.2ft/s2 for g, and 47lb for W in Equation (II):

k=0.76lbfts2/rad×32.2ft/s247lb=24.472lbft2/rad47lb=0.721ft×12in1ft=8.66in

Conclusion:

The centroidal mass moment of inertia is 0.76lbfts2/rad.

The centroidal radius of gyration is 8.66in.

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Chapter 19 Solutions

Vector Mechanics For Engineers

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