Find the maximum torque (couple) by the actuator at point A to maintain the system in Equilibrium, determine variables needed to complete task then write code to complete task.

Robot Mechanism: Part A, Baseline Mechanism

You are on a design team working on a robotic mechanism and have been assigned the analysis of part of the mechanism. The part for you to analyze is shown in the image. This linkage has an actuator at point A that needs to apply a couple at point B of up to 2.5 Nm. The angle range at point B is from 20 to 120 degrees. You need to determine the maximum torque (couple) required of the actuator at point A and the minimum length of rod AC.
For the project, you will plot the results for the length of AD, the force of the collar on AC at D, and the required moment at A to keep the mechanism in equilibrium as functions of the angle at B.

Robot Mechanism: Part B, Modified Mechanism
The lead designer would like to move the actuator at A 100 mm to the left. You need to analyze the new mechanism with the distance from A to B now modified to 250 mm.

Tasks:

Find the maximum torque (couple) by the actuator at point A to maintain the system in Equilibrium
Determine variables needed to complete task
Write code to complete task

Find the maximum torque (couple) by the actuator at point A to maintain the system in Equilibrium, determine variables needed to complete task then write code to complete task.
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