16-113. The disk is moving to the left such that it has an angular acceleration a = 6 rad/s2 and angular velocity w = 3 rad/s at the instant shown. If it does not slip at A, determine the acceleration of point B. 16-114. The disk is moving to the left such that it has an angular acceleration a = 6 rad/s? and angular velocity w = 3 rad/s at the instant shown. If it does not slip at A,...
Problem 16.110 Review The disk is moving to the left such that it has an angular acceleration a = 3 rad/s and angular velocity w = 4 rad/s at the instant shown (Figure 1) Part A If it does not slip at A determine the acceleration of point D. Enter the r and y components of the acceleration separated by a comma. Figure C 1 of 1 11 VO AXO vec ? (B) (as Submit Request Answer 0.5 m Next...
Name ID w = 3 rad/s 4= 8 rad/s2 At the instant shown, the disk is moving to the left such that it has angular acceleration ão=8k rad/s and angular velocity Wo=3k rad/s. Assume it does not slip at A. Answer the following questions. D 160° A [20%] řDic = B [20%] Use the circle in the right to represent the disk. Draw the vector ão třpic on the circle. C [20%] Use the circle in the right to represent...
QUESTION 11 At the instant shown, the 30-kg disk has a counterclockwise angular velocity of 10 rad/sec. Determine the angular acceleration of the disk at this instant (Hint: The polar mass moment of inertia 4.05 Kg.m2. O 10 rad/s 0.3 m ad/sec2 5.19 r 15.57 rad/sec2 30 rad/sec? None of the choices is correct QUESTION 11 At the instant shown, the 30-kg disk has a counterclockwise angular velocity of 10 rad/sec. Determine the angular acceleration of the disk at this...
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
disk rolls without slipping such that it has an angular acceleration of a 8 rad/s2 and angular velocity of w 32 rad/s at the instant shown. Assume point A lies on the periphery of the disk, 150 mm from C. (Figure 1) Figure 1 of 1 500 mm 150 mm 400 mm
The reel of rope has the angular velocity ω = 5 rad/s and angular acceleration α = 7 rad/s2 (Figure 1) Part ADetermine the magnitude of the velocity of point A at the instant shownPart B Determine the direction of the velocity of point A at the instant shown. Part C Determine the magnitude of the acceleration of point A at the instant shown. Part D Determine the direction of the acceleration of point A at the instant shown.
Suppose the angular velocity of a disk of radius R-6 cm increases uniformly from 14 rad/s to 24 rad/s in 0.04 s. What is the magnitude of the TOTAL acceleration of a point on rim of the disk when the angular velocity is 24 rad/s? O 0.15 m/s2 38 m/s2 15 m/s2 O 0.18 m/s2 35 m/s2 O 50 m/s2 N O 3 m/s2 200 m/s2 O 0.72 m/s2
A disk is rotating around its center at an angular velocity of = (5+2+6) rad/s, where t is in seconds. Calculate the magnitude of the velocity and acceleration of point A when t = 0.5 S. Point A is on the disk as shown. 0.8 m a) va = 1.31 m/s aA = 2.21 m/s2 Ob) va = 4.22 m/s a A = 8.32 m/s2 Od VA = 6.15 m/s aa = 4.86 m/s2 O d) va = 2.60 m/s...
The reel of rope has the angular velocity ω = 5 rad/s and angular acceleration α = 8 rad/s2 (Figure 1) Part ADetermine the magnitude of the velocity of point A at the instant shownPart B Determine the direction of the velocity of point A at the instant shown. Part C Determine the magnitude of the acceleration of point A at the instant shown. Part D Determine the direction of the acceleration of point A at the instant shown.