Elements Of Electromagnetics
7th Edition
ISBN: 9780190698614
Author: Sadiku, Matthew N. O.
Publisher: Oxford University Press
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Transcribed Image Text:The cam rotates at the angular velocity of @ = 10rad / s . R= 50mm , 140 = 20mm . Calculate the
velocity V2 of link 2, when ø = 45° , and 90°, respectively.
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- For the linkage shown in the figure, using the graphyical velocity analysis method find the angular velocities of links 3, 4 and 5, and the linear velocity of of point D. The angular velocity of link 2 is 10 rad/sec ccw. Draw the accelaration diagram and calculate the angular accelerations of links 3, 4 and 5 and the linear accelartaion of the piston at point D. All dimensions are given in cms. Use velocity scale: 1 cm: 20 cm/s Use accelaration scale: 1 cm: 200 cm/s^2 28 42=12 L3=24 L5=24 04B=18 04C=18 02 X A 19 46.5arrow_forwardDetermine the velocity of rod R for 0 = T/2 rad in the cam Cif the cam rotates with a constant angular velocity w = 10 rad/s. The pin connection at o does not cause an interference with the motion of A on C. Enter the velocity of R in m/s in the box below. Assume positive to the left, as shown in the figure. ri =1 m, r2 = 0.15 m. Enter the answer in m/s in the box below. Carrow_forwardHi, I need help with this dynamics question. Thank youarrow_forward
- 25,15mm and 14mm/s are the data's. Urgent solution required.arrow_forwardA cam is used to operate a platform that repeatedly lifts boxes for a height of 40 mm as shown. One cycle of the cam has the following motion requirements: Rise to 40 mm in 1.5 s, Dwell for 0.25 s, Fall for 20 mm in 1 s; Dwell for 0.25 s; Fall a further 20 mm in 1s and the cycle repeats after this. The required speed of cam is rpm and the angle turned by cam during the Rise motion is degrees. *Write your answer only as numbers, DO NOT add any text 40 mmarrow_forwardDetermine the velocity of rod R for 0 T/2 rad in the cam C if the cam rotates with a constant angular velocity w = 10 rad/s . The pin connection at O does not cause an interference with the motion of A on C. Enter the velocity of R in m/s in the box below. Assume positive to the left, as shown in the figure. ri = 1 m, r2 = 0.15 m. Enter the answer in m/s in the box below. C www Rarrow_forward
- Given the below information and diagram, determine the angular velocity of link CD in rad/s using the instantaneous center of zero velocity method and relative velocity analysis. Notes to help you along with this process we covered in class as part of the Lecture 7 slides. You are given: L1 = 245 mm, L2 = 297 mm, L3 = 421 mm, war = 14.2 rad/s (in the direction shown), 0 = 54°, and = 27°. WAB L2 L3arrow_forwardA cam is to give the following motion to a knife-edged follower: 1. Outstroke during 75° of cam rotation; 2. Dwell for the next 60° of cam rotation; 3. Return stroke during the next 80° of cam rotation, and 4. Dwell for the remaining 145° of cam rotation. The stroke of the follower is 30 mm and the minimum radius of the cam is 40 mm. The follower moves with uniform velocity during both the outstroke and return strokes. Draw the profile of the cam when (a) the axis of the follower passes through the axis of the camshaft, and (b) the axis of the follower is offset by 25 mm from the axis of the camshaft. Determine the maximum velocity and acceleration of the follower during its ascent and descent, if the cam rotates at 250 r.p.m. Draw the displacement, velocity and acceleration diagrams for one complete revolution of the camarrow_forward6.1 The reciprocating radial roller follower of the plate cam is to rise 2" with simple harmonic motion in 180° of cam rotation and return with simple harmonic motion in the remaining 180°. If the roller radius is 0.375" and the prime-circle is 2", construct the displacement diagram, the pitch curve, and the cam profile for clockwise cam rotation.arrow_forward
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