Required information NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. You and two of your friends are going to move a palate of cinder blocks that measures 0.2 m high, 0.4 m long, and 0.2 m thick. The palate must be moved and rotated, so you get in the middle of one side of the palate and push with a magnitude of 35 N (applied at point G in the diagram). Your friends are going to work on rotating the palate, so they get on opposite sides of the palate and impart two 40 N forces (applied at points E and F in the diagram). All three forces applied to the palate, as well as points A, B, C, and D, are located in the same horizontal plane-the top of the palate of cinder- blocks. You want to understand the overall effects of the forces that you and your two friends are applying to the palate by resolving the forces into a force-couple system applied at corner B of the palate of cinder blocks. This is a fully static problem. Side View F 0.2 m 2 Top View 40 N E 0.8 m F 40 N с G← 0.5m 0.5m 35 N Calculate the magnitude of the moment of the couple formed by the two 40 N forces at points E and F. The magnitude of the moment of the couple formed by the two 40 N forces at points E and F is [ N-m.

J 6

Transcribed Image Text:

Required information NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part You and two of your friends are going to move a pana in the middle of one side of the palate and push with of cinder blocks that measures 0.2 m high, 0.4 ml thick. The palate must be st be moved and 2 and 0.2 m red and rotated, so 1, so you get in a magnitude of 35 N (applied at point G in the diagram, Your friends are going to work on rotating the palate, so they get on opposite sides of the palate and impart two 40 Ñ forces (applied at points E and F in the diagram. All three forces applied to the palate, as well as points A, B, C, and D, are located in the same horizontal plane the top of the palate of cinder- blocks. You want to understand the overall effects of the forces that you and your two friends are applying to the palate by resolving the forces into a force-couple system applied at corner B of the palate of cinder blocks. This is a fully static problem. What would be a valid position vector to use when calculating the moment of the couple formed by the two forces at points E and F? Check all that apply. Check All That Apply | L - (0.4m)4 (-0.4m) - (1 m) - (0.4m) - (1 m) (0.4m) (1 m) (0.4m)i + (1 m)k

Transcribed Image Text:

Required information NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. You and two of your friends are going to move a palate of cinder blocks that measures 0.2 m high, 0.4 m long, and 0.2 m thick. The palate must be moved and rotated, so you get in the middle of one side of the palate and push with a magnitude of 35 N (applied at point G in the diagram). Your friends are going to work on rotating the palate, so they get on opposite sides of the palate and impart two 40 N forces (applied at points E and F in the diagram). All three forces applied to the palate, as well as points A, B, C, and D, are located in the same horizontal plane-the top of the palate of cinder- blocks. You want to understand the overall effects of the forces that you and your two friends are applying to the palate by resolving the forces into a force-couple system applied at corner B of the palate of cinder blocks. This is a fully static problem. Side View F D x 0.2 m B Top View 40 N 40.4 m E F 40 N G D ↑ 0.5 m ✓ 0.5 m ↓ x 35 N Calculate the magnitude of the moment of the couple formed by the two 40 N forces at points E and F. The magnitude of the moment of the couple formed by the two N forces at points E and F is N-m.