Solve with matlab please. All needed info is here.
Solve with matlab please. All needed info is here. 1: Kinematic Constraints Collar B moves to...
At the instant shown collar B moves with a velocity of vB=4 [m/s] and acceleration aB=2.4 [m/s2 ] to the right. Angle =50o , and length of the rod is L=650 [mm]. At the instant when =30o , determine (a) magnitude of angular acceleration of rod AB, AB [rad/s2 ], and (b) magnitude of acceleration of collar A, aA [m/s2 ]. What is magnitude of angular acceleration of rod AB, AB [rad/s2 ]? What is magnitude of acceleration of collar...
15.40. Collar B moves upward with a constant velocity of 1.5 m/s. At the instant when e 50, determine (a) the angular velocity of rod AB, (b) the velocity of end A of the rod. [1.173 rad/s, 0.998 m/s @ 25°] 1.2 m 25°
Question 9 Collar B moves upward with a constant velocity of 1.5 m/sec. At the instant when e 50. the angular velocity of rod AB is equal to: 12 m 25 0.63 rad/sec. 1.17 rad/sec. 1.80 rad/sec 1.00 rad/sec
Q2. The rod OB in Figure Q2 is rotating anticlockwise around O with an angular velocity of 2trad/s. Collar A moves along the rod with speed t sin(2t) m/s 8Orad and r-1m when t 0 s. a) Calculate the magnitude of the velocity vector of the collar A relative to o at t 1s. 5 Marks] b) Calculate the acceleration vector of the collar A relative to O at t-1s. [6 Marks] c) Determine the Cartesian velocity vector of the...
Need help ... Need to solve it in vector form OA-100 OB-200 Dimensions in mm The collar A slides on the pivoted arm BC and is pinned to the crank OA as shown in Figure. At the instant shown, crank OA rotates at a constant angular velocity of 2 rad/s clockwise Determine the angular velocity and angular acceleration of arm BC when θ-45"
please show all work neatly and orderly so that I will understand 2) 40 pts. Block A, which is attached to a cord, moves along the slot of a horizontal forked rod. At the instant shown, the cord is pulled down through the hole at O with an acceleration of 4 m/sec/sec and its velocity is 2 m/s. Determine the acceleration of the block at this instant. The rod rotates about O with an angular velocity of 4 rad's and...
PROBLEMS 16-135. At the instant shown, ball B is rolling along the slot in the disk with a velocity of 600 mm/s and an acceleration of 150 mm/s2, both measured relative to the disk and directed away from 0. If at the same instant the disk has the angular velocity and angular acceleration shown, determine the velocity and acceleration of the ball at this instant w= 6 rad/s a = 3 rad/s2 0.4 m Prob. 16-135
The disk rotates about a fixed axis through point o with a clockwise angular velocity wo = 20 rad/s and a counterclockwise angular acceleration 0o = 4.1 rad/s2 at the instant under consideration. The value of r is 260 mm. Pin A is fixed to the disk but slides freely within the slotted member BC. Determine the velocity and acceleration of A relative to slotted member BC and the angular velocity and angular acceleration of BC. The relative velocity and...
can you solve neatly, step by step so I can understand? 2) 40 pts. Block A, which is attached to a cord, moves along the slot of a horizontal forked rod. At the instant shown, the cord is pulled down through the hole at O with an acceleration of 4 m/sec/sec and its velocity is 2 m/s. Determine the acceleration of the block at this instant. The rod rotates about O with an angular velocity of 4 rad's and an...
100 mm А B 75 mm C 100 mm x mm At the instant shown, bar BC has a constant angular velocity of 3.2 rad/s counter clockwise. Given x = 163 mm. Using relative velocity and acceleration analysis, determine: (c) the angular acceleration (magnitude and direction) of the plate. rad/s2 Check (d) the acceleration (magnitude) of point B relative to the plate. m/s?