Using graphical method of following mechanism CW direction. Find the Linear Velocity and Linear Acceration of of A and B given ω=25rad/s and link 2 is at 51degrees.
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Using graphical method of following mechanism CW direction. Find the Linear Velocity and Linear Acceration of...
please use graphical instant center method Problem 7: Given the velocity of A is 10 m/sec in the direction shown, find the angular velocities of link 4 and link 5, and the angular velocity of link 4 w.r.t. link 2. Solve using the traditional graphical method and the instant centers method. (Do not use intermediate steps: i.e. do not use or w2 in order to find 2w4 when solving the problem using the instant centers method.) Assume that the mechanism...
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Determine Position, Velocity, and Acceleration. Solve it by using Vector method or Complex method. project-6: Determine the position, velocity and accelerations of points C,D, P. O2 O1 ?, at 9-45? 100rads (ew) - 90 0 rad/s (CW). Analytical and graphical results 800mm, o,0, 200mm, (CW), CA -200rd/s a, =0 rads'(CW-Analytical and-graphierten s C500mm,E-0mm, B-30 for 030360 ts are are 36. aD-1000mm ,?=150mm, 0C-500mm, E=-40mm, ?=90° , ?= 90° for 0.sqs360, results are given at a, = 100rad/s (CCW), a,-0 rads'(CW)...
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Find the acceleration using both the graphical and analytical method 5 m P#4 L1= 6m L2 3 m La= 5 m L4= 4 m e2= 65" W2= 1.5 rad/s (CCW) alphag = 0 rad/s O3= ?? W3 = ??, direction ?? ??, direction ?? W4 VAB ?? B04=?? alphag ??, direction = ?? alpha, ??, direction ?? 6 m 3 m 65.00 5 m P#4 L1= 6m L2 3 m La= 5 m L4= 4 m e2= 65" W2= 1.5...
ME 322 Final Take Home Question Name Part 2. (20 points) In the following mechanism, OA 0.250 m. OB 0.273 m, link 2 is the input link. At the moment, θ,-45° , the angular velocity ω2 4 rad/s (CVV), the angular acceleration α2- 0.5 ras/s"(CCW), From position and velocity analysis, AB = 0.200 m, θ4-118.30, a4- 1.43 rad/s (CW), sliding velocity v33 0.9579 m/s, direction from B point to A. (choose your own method) Write the relative motion acceleration equation...
Dynamics. Please find the following. 1-using the relative velocity method 2-using the instantaneous center of rotation method thank-you in advance!. 6) In the position shown, calculate: (c) CD (a) vc (b) wBc WBC 305 mm min 254 mm 2 rad/s 45° 30°
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