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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 (30.93 KiB) Viewed 18 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 (20.1 KiB) Viewed 18 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.