(20 pts) Problem 1. Consider the quick return mechanism below し,-5.5 Lo-3 a) Calculatethe stroke ratio (stroketimeute) b) Calculate the minimum length of Link 4 such that the transmission ratio is a...
kinematic design of machinery Problem #4. Considering the drag link quick-return mechanism shown below, show the linkage in its limiting positions (corresponding to extreme positions of the slider). Measure the angle through which the crank link 2 turns as the slider moves from extreme left to extreme right. Compare this with the corresponding angle as the slider moves to the left. Find the stroke of the slider (distance between limiting positions) and the time ratio of advance to return. Find...
(20 pts) Problem 4. Consider the four bar mechanism below. kD4B-40°, BC-2.5it lj , CD-3.3 and AD- 6i. Find the possible lengths of Link 1 and the corresponding valtues of o We were unable to transcribe this image (20 pts) Problem 4. Consider the four bar mechanism below. kD4B-40°, BC-2.5it lj , CD-3.3 and AD- 6i. Find the possible lengths of Link 1 and the corresponding valtues of o
Question 3: Consider the image below for the following problem statement. OBO Suppose the transmission axes of the left and right polarizing disks are perpendicular to each other. Also, let the center disk be rotated on the common axis with and angular speed w, this means 8 = wt. a) Show that if unpolarized light is incident on the left disk with an intensity of Imax, the intensity of the beam emerging from the right disk is: 1 = x...