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.
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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.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fee788985-6ee6-4669-9cb4-d143b6c80e7d%2Fed2ca4ed-1500-4696-a9ae-a79d138d2b8f%2Fudw20c_processed.jpeg&w=3840&q=75)
Transcribed Image Text: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](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fee788985-6ee6-4669-9cb4-d143b6c80e7d%2Fed2ca4ed-1500-4696-a9ae-a79d138d2b8f%2Fzd9r5x8_processed.jpeg&w=3840&q=75)
Transcribed Image Text: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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