Problem

For the slider-crank mechanism shown, let L = 141 mm, R = 48.5 mm, and H = 36.4 mm. In add...

For the slider-crank mechanism shown, let L = 141 mm, R = 48.5 mm, and H = 36.4 mm. In addition, observing that D is the center of mass of the connecting rod, let the mass moment of inertia of the connecting rod be ID = 0.00144 kg·m2 and the mass of the connecting rod be m = 0.439 kg.

Figure P8.12

Plot the kinetic energy of the connecting rod as a function of the crank angle θ over one full cycle of the crank for ωAB = 2500 rpm, 5000 rpm, and 7500 rpm.

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Textbook Solutions and Answers Search

Solutions For Problems in Chapter 8

1DP
1P
2DP
2P
3P
4P

5P
6P
7P
8P
9P
10P

143RP
144RP

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