plz solve the last two parts c and d
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plz solve the last two parts c and d Q3. The four bar linkage mechanism as...
5. In the linkage shown, link 2 is rotating in the direction of CW at the constant angular velocity of 100 rad/s. In the position shown, determine the acceleration of joint C, and the angular acceleration of link 3 by using graphical approach. The link lengths of AB and BC are 60 mm and 200 mm, respectively. Link AB and slider guide are horizontal in the given position (20 points). 120 mm
A four-bar linkage is shown in the figure (the ground "link" OC is considered the fourth bar). If the drive link OA has a counterclockwise angular velocity o-5.0 rad/s, determine the angular velocities of links AB and BC. The angular velocities are positive if counterclockwise, negative if clockwise 16° 455 mm 355 135 mm 53° 0 Answers: AB 0.213 B0.380
If link AB of the four-bar linkage has a constant counterclockwise angular velocity of 50 rad/s during an interval which includes the instant represented, determine the angular acceleration of AO (positive if counterclockwise, negative if clockwise) and the acceleration of point D. 85 mm 210 mm OA 135 mm 135 mm Answers: rad/s? OAOT0.00 ap 738 948 ) m/s2
Figure 8 (c) Figure 9 illustrates a four-bar linkage mechanism that is used to operate a washing system on a vegetable harvesting line. The mechanism consists of a crank OA which moves in a limited arc and an L-shaped connecting rod AB which tilts a large bucket of water DB onto the vegetables. The crank rotates with a constant angular velocity wOA = 4x rad/s. For the instant shown with the crank vertical and the angle 8 = 30° determine...
If link AB of the four-bar linkage has a constant counterclockwise angular velocity of 53 rad/s during an interval which includes the instant represented, determine the angular acceleration of AO (positive if counterclockwise, negative if clockwise) and the acceleration of point D. 90 mm B WAB 190 mm 140 mm 140 mm Answers: CAO = Jrad/s2 ap li) m/s2
The mechanism shown in the figure below has rigid links pivoted at A, B, C and D. The link BCE is a rigid plate. The dimensions of the links are BC = 110 mm BE 70 mm CE 60 mm CD 30 mm AB = 50 mm At the instant when both angles ABC and BCD are 90°, the link AB has a clockwise angular velocity of 40 rad/s. Determine the angular velocity of link BCE A Determine the angular...
If link AB of the four-bar linkage has a constant counterclockwise angular velocity of 30 rad/s during an interval which includes the instant represented, determine the angular acceleration of AO (positive if counterclockwise, negative if clockwise) and the acceleration of point D. 80 mm L - - OAB 195 mm 130 130 mm 1 mm 1 Answers: DAO = rad/s2 ad = 0 + j) m/s2
Chapter 5, Problem 5/120 If link AB of the four-bar linkage has a constant counterclockwise angular velocity of 39 rad/s during an interval which includes the instant represented, determine the angular acceleration of AO (positive if counterclockwise, negative if clockwise) and the acceleration of point D. 75 mm 150 mm 0 115 115 Answers: GAO = rad/s2 aD = i) m/s2
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?
The velocity of Block C is Vc = 5m/s constant with the direction shown in the figure Q1, determine the angular velocity and angular acceleration of the link AB and link BC of the instant shown vc 6 m/s 300 450 800 cm 60이 500 cm Figure Q1 the velocity of block C is vc 5 m/s constant with the direction shown in the Figure , determine the angular velocity and angular acceleration of the link AB and link BC...