Q4. If the flywheel is rotating with an angular velocity of 04 = 5 rad/sec, determine...
Name: The flywheel rotates with angular velocity ? = 3 rad/s and angular acceleration ? : 5 rad/s. Determine (a) the motion of the flywheel, rod AB, and rod BC. Then determine the angular acceleration of (b) link AB and (c) link BC at the instant shown. Use: a = 0.4 m, b = 0.5 m, r = 0.3 m, d= 4, and e-3. (Hint: Use Translating Frames analysis.) 4. Motion: 1. Flywheel-> 2. Rod AB-> 3. Rod BC-
0.5 m The flywheel rotates with angular velocity w=2 rad/s and angular acceleration of a=6 rad/s2. Determine the angular acceleration of links AB and BC at this instant. w = 2 rad/s a = 6 rad/s? B 0.3 m 0.4 m co
The flywheel A has an angular velocity ω=5 rad/s. Link AB is connected via ball and socket joints to the flywheel at A and a slider at B. Find the angular velocity of link AB and the velocity of slider B at this instant. (Partial Answer: VB = 0) Problem 1 The flywheel A has an angular velocity w-5 rad/s. Link AB is connected via ball and socket joints to the flywheel at A and a slider at B. Find...
The rod CD is rotating with an angular velocity cp = 2 rad/s. Determine: i) The velocity of point and show its direction in the figure below ii) What is the angular velocity of link BC? iii)What is the velocity of points B and E? iv) What is the angular velocity of link AB? 0.2 m 0.2 m B E 0.4 m 30° WCD= 2 rad/s
The rod CD is rotating with an angular velocity 0CD = 2 rad/s. Determine: 1) The velocity of point and show its direction in the figure below i1) What is the angular velocity of link BC? 1) What is the velocity of points B and E? iv) What is the angular velocity of link AB? (30 points) 0.2 m, 0.2 m В, E 0.4 m 30° wcd=2 rad/s
1. At the instant shown, the angular velocity of the cam AB is 30 rad/s. The link BC is horizontal, and rod CD is vertical. Use the following dimensions: d1 = 300 mm, d2 = 600 mm, dz = 400 mm, and 0= 30°. a) For link BC, draw a kinematic diagram to show all vectors involved in velocity analysis. (3 pts) b) Use the relative velocity equation (NOT the instantaneous center of zero velocity) to determine the angular velocity...
7. The rod CD is rotating with an angular velocity 0cD = 2 rad/s. Determine: i) The velocity of point and show its direction in the figure below ii) What is the angular velocity of link BC? iii) What is the velocity of points B and E? iv) What is the angular velocity of link AB? (30 points) 0.2 m 0.2 m B E 0.4 m 30° CD= 2 rad/s D
7. The rod CD is rotating with an angular velocity OCD = 2 rad/s. Determine: i) The velocity of point C and show its direction in the figure below ii) What is the angular velocity of link BC? iii) What is the velocity of points B and E? iv) What is the angular velocity of link AB? 0.2 m 0.2 m В. E 0.4 m cd= 2 rad/s 30° D
7. The rod CD is rotating with an angular velocity cp = 2 rad/s. Determine: i) The velocity of point C and show its direction in the figure below ii) What is the angular velocity of link BC? iii)What is the velocity of points B and E? iv) What is the angular velocity of link AB? (3: 0.2 m 0.2 m В. E 0.4 m WCD= 2 rad/s 30° D
7. The rod CD is rotating with an angular velocity cp = 2 rad/s. Determine: i) The velocity of point C and show its direction in the figure below ii) What is the angular velocity of link BC? iii)What is the velocity of points B and E? iv) What is the angular velocity of link AB? (3: 0.2 m 0.2 m В. E 0.4 m WCD= 2 rad/s 30° D