Please help with the following dynamic problem and show all work. Thank you
Detailed solution is shown below ask if any doubt
40 mm Problem 2: Slipping If the slider block C 's center is fixed to the disk with a pin joint, ...
Chapter 5, Problem 5/144 The disk rolls without slipping on the horizontal surface. If the disk has a clockwise angular velocity of wo-21 rad/s and a counterclockwise angular acceleration of 3.6 rad/s2 determine the veloclty and acceleratlon of pln A relatlve to the slotted member BC and the angular velocity and angular acceleratlon of BC. The value of r is 225 mm. Neglect the distance from the center of pin A to the edge of the disk. The relative velocity...
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...
PartA The slider block has the motion shown. Suppose that r 170 mm and h 550 mm (Figure 1) Deterrnine the angular velocity of the wheel at this instant measured counterclockwise. Express your answer using three significant figures, Enter positive value if the angular velocity is counterclockwise and negative value if the angular velocity is clockwise View Available Hintis) 14.5 rad/s VCorrect Significant Figures Feedback: Your answer 14.54 rad/s was either rounded differently or used a diferent number of significant...
The disk rotates with the angular motion shown. The peg at B is fixed to the disk. Suppose that ω = 9 rad/s , α = 10 rad/s2, r = 0.3 m , and a = 1.35 m . (Figure 1) Determine the angular velocity of the slotted link AC at this instant measured counterclockwise. Express your answer using three significant figures. Enter positive value if the angular velocity is counterclockwise and negative value if the angular velocity is clockwise....
QUESTION 1 The slider block C moves at 8 m/s down the inclined groove. Determine the angular velocities of links AB and BC.at the instant shown QUESTION 3 At the instant shown. θ-: 60p. and rod AB is subjected to a deceleration of 16 m/s when the velocity is 10 m s. Determine the angular velocity and angular acceleration of link CD at this instant QUESTION 2 The shaper mechanism is designed to give a slow cutting stroke and a...
The "quick-return" mechanism consists of a crank AB, slider block B, and slotted link CD. If the crank has the angular motion shown, determine the angular motionof the slotted link at this instant. (Answer Wcd = 0.866rad/s, Acd = 3.23 rad/s2)Wab= 3 rad/sαab= 9 rad/s2θ = 30o
1) The disk rolls without slipping with an angular velocity of o 2 rad's and an angular acceleration of -3 rad/s, Link AB is pin connected to the disk at point A which is on the periphery of the disk. The length of the link is 0.5 m and the radius of the wheel is 0.25 m. Find the velocity of point B when A is 0.25m above the ground. 10 points a) VA-W /o o.25 ,775 Find the acceleration...
PROBLEM 2 (20 points) In the offset slider crank mechanism shown, the crank (AB) has a constant angular velocity of 10 rad/s, counterclockwise (A) Draw (clearly) the two limiting positions of the slider c (B) Determine the stroke of the slider and the time ratio of the mechanism (C) Determine the velocity ( with direction) of the slider at the instant 8- AB- 40 mm C-100mm PROBLEM 2 (20 points) In the offset slider crank mechanism shown, the crank (AB)...
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
The 180-mm disk is at rest when it is placed in contact with a belt moving at a constant speed. Neglecting the weight of the link AB and knowing that the coefficient of kinetic friction between the disk and the belt is 0.4, determine the angular acceleration of the disk while slipping occurs. (Round the final answer to one decimal place.) 180 mm 60° The angular acceleration of the disk is rad/s2U