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Any questions?? Please ask\/answer questions regarding this homework problem through the “Leave a Comment” link above.<\/p>\n
Discussion<\/strong><\/em><\/p>\n The animation shown above demonstrates the kinematics of the motion of the bar. (Note that in the animation velocities are shown in BLUE<\/em><\/strong><\/span> and accelerations are shown in RED<\/strong><\/em><\/span>.) In particular, we are reminded from this that:<\/p>\n The above kinematics observations are seen if we freeze-frame the above animation at the time that it is released from rest. See below.\u00a0Here we see the acceleration of A is down along the slot, and the acceleration of B is horizontal.<\/p>\n HINT<\/em>: As always, we should follow the four-step plan for solving this problem. Any questions?? Please ask\/answer questions regarding this homework problem through the “Leave a Comment” link above.<\/p>\n","protected":false},"excerpt":{"rendered":" Any questions?? Please ask\/answer questions regarding this homework problem through the “Leave a Comment” link above. Discussion The animation shown above demonstrates the kinematics of the motion of the bar. (Note that in the animation velocities are shown in BLUE and accelerations are shown in RED.) In particular, we are reminded from this that: End … Continue reading Homework H5.A.03a<\/span> ![](\"https:\/\/www.purdue.edu\/freeform\/me274\/wp-content\/uploads\/sites\/15\/2021\/10\/H5A_03.gif\")
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\nSTEP 1: FBD<\/strong><\/em>
\nSTEP 2: Kinetics<\/strong><\/em> (here, Newton-Euler)
\nSTEP 3: Kinematics.<\/strong><\/em> See discussion of this above. You will need to use the known directions of the accelerations of A and B in order to write down the acceleration of G needed for Newton’s equation. Click on this link<\/a><\/span> to see how this is done. See Example 5.A.13<\/em> of the lecture book as an example on how to approach the kinematics of a problem such as this with constrained motion for two points on a rigid body.
\nSTEP 4: Solve<\/strong><\/em><\/p>\n
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