Please all solve tha question Part A - At the instant shown, determine the angular velocity of link BC and the linear velocityof block C) Determine the linear velocity of block C.Enter your solution to Part A(i) below. Please give your solution in m/sPart B - A force gauge determines that link BC imparts a force of 8 N to body AB. This force isknown to be colinear with rod BC. Determine the mass momentjof inertia of body AB aboutpoint A. Question 7 - Rigid Body Kinematics and KineticsFor the linkage system shown. AB = 1.5 m and BC = 2 m.Ignore all potential sources of friction and assume that the center of mass of AB is at G, halfway along AB.Take w AB = 17 rad/s, a AB = 16 rad/s^2, and m AB = 20 kg0.75 mB2 m0.75 m0, aOGPart A - At the instant shown, determine the angular velocity of link BC and the linear velocityof block C.O Determine the angular velocity of link BC.Enter your solution to Part A0 below. Please give your solution in rad/s

Answered: Image /qna-images/answer/ed2ca4ed-1500-4696-a9ae-a79d138d2b8f.jpg

Question 7 - Rigid Body Kinematics and Kinetics m For the linkage system shown, AB = 1.5 m and BC = 2 m. Ignore all potential sources of friction and assume that the center of mass of AB is at G. halfway along AB. Take w AB = 17 rad/s, a AB = 16 rad/s^2, and m AB = 20 kg %3D 0.75 m B 2 m 0.75 m , a Part A - At the instant shown, determine the angular velocity of link BC and the linear velocity of block C O Determine the angular velocity of link BC

Question 7 - Rigid Body Kinematics and Kinetics m For the linkage system shown, AB = 1.5 m and BC = 2 m. Ignore all potential sources of friction and assume that the center of mass of AB is at G. halfway along AB. Take w AB = 17 rad/s, a AB = 16 rad/s^2, and m AB = 20 kg %3D 0.75 m B 2 m 0.75 m , a Part A - At the instant shown, determine the angular velocity of link BC and the linear velocity of block C O Determine the angular velocity of link BC

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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Question

Please all solve tha question

Part A - At the instant shown, determine the angular velocity of link BC and the linear velocity
of block C
) Determine the linear velocity of block C.
Enter your solution to Part A(i) below. Please give your solution in m/s
Part B - A force gauge determines that link BC imparts a force of 8 N to body AB. This force is
known to be colinear with rod BC. Determine the mass momentjof inertia of body AB about
point A.

Question 7 - Rigid Body Kinematics and Kinetics
For the linkage system shown. AB = 1.5 m and BC = 2 m.
Ignore all potential sources of friction and assume that the center of mass of AB is at G, halfway along AB.
Take w AB = 17 rad/s, a AB = 16 rad/s^2, and m AB = 20 kg
0.75 m
B
2 m
0.75 m
0, a
OG
Part A - At the instant shown, determine the angular velocity of link BC and the linear velocity
of block C.
O Determine the angular velocity of link BC.
Enter your solution to Part A0 below. Please give your solution in rad/s

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