Please explain the equations you use.
Please explain the equations you use. 16-65. If disk D has a constant angular velocity wD = 2 rad/s, determine the angu...
Disk D has angular velocity ω': 4 rad/s and angular acceleration α': 1.2 rad/s' and radius r = 0.3 m. The fixed curved surface C has radius R = 0.8 m. If no slipping occurs between disk D and the fixed surface C, determine the angular velocity and angular acceleration, ω and α, of arm AB. 2. ω,α ω.a
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,...
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...
The disk is originally rotating at 19 rad/s. It is subjected to a constant angular acceleration of a=28 rad/s". (Figure 1) Part A Determine the magnitude of the velocity of point A at the instant t = 2 s Express your answer to three significant figures and include the appropriate units. "! HAR O ? Figure Value Units Submit Request Answer Part B 2 0.4 m Determine the magnitudes of the and components of acceleration of point A at the...
5. At the instant shown, rod AB has a constant angular velocity of 5 rad/s counterclockwise. Determine (a) the angular acceleration of rod BD and (b) the angular acceleration of rod DIE 5 rad/s 60° 180 mm 180 mm 5. At the instant shown, rod AB has a constant angular velocity of 5 rad/s counterclockwise. Determine (a) the angular acceleration of rod BD and (b) the angular acceleration of rod DIE 5 rad/s 60° 180 mm 180 mm
(b) At the instant shown in Figure Q2(b), a disk is rotating with an angular velocity of a) 1.0 rad/s and has an angular acceleration of α-: 0.5 rad/s. A string extends from the centre of the disk, O, and runs over a small peg, A, and a pulley, B. The other end of the string is connected to a cylinder C. At the instant shown, OA is perpendicular to AB. Neglect the size of the pulley at B. (i)Determine...
If bar AB has an angular velocity of 6 rad/s,determine the velocity of the .slider block C at the instant shown 30° 200 mm B 150 mm WAB = 6 rad/s 60° 0.2 m/s O 1.5 m/s 12.4 m/s 28 m/s 0 36.4 m/s o
5.00 in 5. Arm AB has a constant angular velocity of 2 rad/s clockwise, determine: a) the velocity of point B b) the angular velocity of bar BC c) the angular velocity of bar CD c) the velocity of the point C d) the acceleration of point B e) the angular acceleration of bar BC f) the angular acceleration of bar CD. (40) D o 8.00 in 60° B 3.00 in
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.
The reel of rope has the angular velocity ω = 3 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.