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n the mechanism shown in Figure 3, link OA has a length of R = 0.5 m. Link AB has a length of L = 0.2 m. The ngle between the two links OA and AB is 30° (0 = 30 °). If the link OA rotates with an angular velocity of 2 rad/s n the counter-clockwise direction, and an angular acceleration of 1 rad/s² in the same direction, using vector analysis etermine the following: a) the velocity of slider B, and b) the angular acceleration of link AB. R B Ꮎ

n the mechanism shown in Figure 3, link OA has a length of R = 0.5 m. Link AB has a length of L = 0.2 m. The ngle between the two links OA and AB is 30° (0 = 30 °). If the link OA rotates with an angular velocity of 2 rad/s n the counter-clockwise direction, and an angular acceleration of 1 rad/s² in the same direction, using vector analysis etermine the following: a) the velocity of slider B, and b) the angular acceleration of link AB. R B Ꮎ

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
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In the mechanism shown in Figure 3, link OA has a length of R = 0.5 m. Link AB has a length of L = 0.2 m. The angle between the two links OA and AB is 30° (0 = 30°). If the link OA rotates with an angular velocity of 2 rad/s in the counter-clockwise direction, and an angular acceleration of 1 rad/s² in the same direction, using vector analysis determine the following: a) the velocity of slider B, and b) the angular acceleration of link AB. R B
Transcribed Image Text:In the mechanism shown in Figure 3, link OA has a length of R = 0.5 m. Link AB has a length of L = 0.2 m. The angle between the two links OA and AB is 30° (0 = 30°). If the link OA rotates with an angular velocity of 2 rad/s in the counter-clockwise direction, and an angular acceleration of 1 rad/s² in the same direction, using vector analysis determine the following: a) the velocity of slider B, and b) the angular acceleration of link AB. R B
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