The prescribed motion for an application is as follows: (i) Rise 60 mm in 2.5 s using the constant velocity motion scheme. (ii) Return in 3.0 s using the cycloidal motion scheme. (iii) Dwell for 1.5 s. (iv) Repeat the sequence. Using the motion equations, find the follower acceleration at t = 0.5 s for the cycloidal motion and angular displacement of cam for the return motion.
The prescribed motion for an application is as follows: (i) Rise 60 mm in 2.5 s using the constant velocity motion scheme. (ii) Return in 3.0 s using the cycloidal motion scheme. (iii) Dwell for 1.5 s. (iv) Repeat the sequence. Using the motion equations, find the follower acceleration at t = 0.5 s for the cycloidal motion and angular displacement of cam for the return motion.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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The prescribed motion for an application is as follows:
(i) Rise 60 mm in 2.5 s using the constant velocity motion scheme.
(ii) Return in 3.0 s using the cycloidal motion scheme.
(iii) Dwell for 1.5 s.
(iv) Repeat the sequence.
Using the motion equations, find the follower acceleration at t = 0.5 s for the cycloidal motion and angular displacement of cam for the return motion.
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