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The mechanism below is analyzed as a pin-jointed four bar linkage. The link 2 (OA) is the input link, the link 3 (AB) is the coupler link and the link 4 (0,0) is the output link. At the position shown the link 2 makes an angle 8-20° with the horizontal axis. We need to find the Input angle 82, and the coupler angle 8, with respect to X axis. All angles must be measured in degree CCW from X axis .9 m .5 m 02. 2 X 25 m .6 m 2.1 m 04 55° 2.0 m

The mechanism below is analyzed as a pin-jointed four bar linkage. The link 2 (OA) is the input link, the link 3 (AB) is the coupler link and the link 4 (0,0) is the output link. At the position shown the link 2 makes an angle 8-20° with the horizontal axis. We need to find the Input angle 82, and the coupler angle 8, with respect to X axis. All angles must be measured in degree CCW from X axis .9 m .5 m 02. 2 X 25 m .6 m 2.1 m 04 55° 2.0 m

Elements Of Electromagnetics
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 mechanism below is analyzed as a pin-jointed four bar linkage. The link 2 (O,A) is the input link, the link 3 (AB) is the coupler link and the link 4 (0,04) is the output link. At the position shown the link 2 makes an angle 0-20° with the horizontal axis. We need to find the Input angle 62, and the coupler angle 6, with respect to X axis. All angles must be measured in degree CCW from X axis. .5 m 02 X < e .9 m 25 m .6 m 2.1 m 04 55° 2.0 m
Transcribed Image Text:The mechanism below is analyzed as a pin-jointed four bar linkage. The link 2 (O,A) is the input link, the link 3 (AB) is the coupler link and the link 4 (0,04) is the output link. At the position shown the link 2 makes an angle 0-20° with the horizontal axis. We need to find the Input angle 62, and the coupler angle 6, with respect to X axis. All angles must be measured in degree CCW from X axis. .5 m 02 X < e .9 m 25 m .6 m 2.1 m 04 55° 2.0 m
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