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: Given Based On The 3 4 5 Polynomial Introduced On Pp 354 359 Design A Cam With A 25 Mm Rise The Rise Interval Is 1 1 (30.96 KiB) Viewed 22 times

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: Given Based On The 3 4 5 Polynomial Introduced On Pp 354 359 Design A Cam With A 25 Mm Rise The Rise Interval Is 1 2 (20.48 KiB) Viewed 22 times

Given: Based on the 3-4-5 polynomial introduced on pp. 354 - 359, design a cam with a 25-mm rise. The rise interval is 120° and the return interval is 100", and the top dwell is 50°. The disk cam rotation speed will be 600 rpm. Using Matlab solves the matrix system solutions for the rise and return motion portions of the rise-dwell-return-dwell (RDRD) follower motion curve. (Sample Problem 5.2 shown on pp. 352 - 354 can be referred.)

Derive the 3-4-5 polynomial of the follower rise portion. Derive the 3-4-5 polynomial of the follower return portion. Plot the follower displacement curve. Plot the follower velocity curve. Plot the follower acceleration curve.