Page Comparison

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Figure 1. Mechanism with Labels

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Figures 2-4. Position of Points A, B, and C in Coordinate Plane

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Figures 5-7. X & Y Position of Points A, B, and C in One Cycle

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Figures 8-10. X & Y Velocity of Points A, B, and C in One Cycle

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Figures 11-1213. X & Y Velocity of Points A, B, and C in One Cycle

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Figures 1314-1516. Angular Velocity of Points Input, Coupler, and Slider in One Cycle

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Figures 1617-1819. Angular Velocity of Points Input, Coupler, and Slider in One Cycle

Figure 20. Kinematic Analysis Resulting Simulation

From the plots and visual analysis of the mechanism, I can conclude that no Coriolis acceleration is present. If the slider had rotational movement, and was not constrained to the X-axis, it would experience this phenomena. As long as the slider position is stagnant in the X-direction, the mechanism will not experience Coriolis Acceleration.