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...
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...
5. In the linkage shown, link 2 is rotating in the direction of CW at the...
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
Problem #9: For the mechanism shown in shown, determine the rotational speed of link 4 and the linear velocity of p...
Problem #9: For the mechanism shown in shown, determine the rotational speed of link 4 and the linear velocity of point C using complex numbers method. roAz=3.0 cm: roB= 1 cm 4.5 cm ro2O4= 5.0 cm; rBC 02 150°; an 18 rad/s CW (constant) 6 A2 on 2 As on 4 Bo 2.0 cm m 777
Problem #9: For the mechanism shown in shown, determine the rotational speed of link 4 and the linear velocity of point C using complex...
Determine Position, Velocity, and Acceleration. Solve it by using Vector method or Complex method. project-6: Determine...
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)...
2- In the following mechanism find a4 , AA, AB, Ac where w2=2 rad/s [CW] all...
2- In the following mechanism find a4 , AA, AB, Ac where w2=2 rad/s [CW] all dimensions are in mm and az 8 rad/s [CW] A 01A = 30 02 = 70° AB=70 AC=29 BC=53 04B = 25 01 17 64 04 B Solutions must include both graphical and analytical methods. Explain the step-by- step procedure for graphically developing the velocity/acceleration image. Detailed analytical procedure including all trigonometric functions used must be presented. The consistency between the graphical and analytical...
Find the acceleration using both the graphical and analytical method 5 m P#4 L1= 6m L2...
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...
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...
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°
The mechanism of a wrapping machine, as shown in Fig. Q-2, has the following dimensions
Q-2 The mechanism of a wrapping machine, as shown in Fig. Q-2, has the following dimensions: O1A = 100 mm; AC = 700 mm; BC = 200 mm; O3C = 200 mm; O2E = 400 mm O2D = 200 mm and BD = 150 mnn. The crank O1A = a2 rotates at a uniform angular speed of ω2 =100 rad/s.Determine the magnitude and direction of velocity of the point E (VE in m/s) of the bell crank lever (DO2E) by...
2) (120 pts) After successfully landing on the planet Mars, some scientists want to experimentally test the compressor mechanism given below. The compressor mechanism shown below is driven clockw...
2) (120 pts) After successfully landing on the planet Mars, some scientists want to experimentally test the compressor mechanism given below. The compressor mechanism shown below is driven clockwise by a DC electric motor at a constant rate of 800 rpm, and accelerating at 1000 rad/s'. In the position shown, the cylinder pressure is 70 psi, and the plston weighs 2 lb. The coefficient of friction between the piston and the compressor cylinder is 0.5. The weight of all other...
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...
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
Problem #9: For the mechanism shown in shown, determine the rotational speed of link 4 and the linear velocity of point C using complex numbers method. roAz=3.0 cm: roB= 1 cm 4.5 cm ro2O4= 5.0 cm; rBC 02 150°; an 18 rad/s CW (constant) 6 A2 on 2 As on 4 Bo 2.0 cm m 777
Problem #9: For the mechanism shown in shown, determine the rotational speed of link 4 and the linear velocity of point C using complex...
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)...
2- In the following mechanism find a4 , AA, AB, Ac where w2=2 rad/s [CW] all dimensions are in mm and az 8 rad/s [CW] A 01A = 30 02 = 70° AB=70 AC=29 BC=53 04B = 25 01 17 64 04 B Solutions must include both graphical and analytical methods. Explain the step-by- step procedure for graphically developing the velocity/acceleration image. Detailed analytical procedure including all trigonometric functions used must be presented. The consistency between the graphical and analytical...
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°
2) (120 pts) After successfully landing on the planet Mars, some scientists want to experimentally test the compressor mechanism given below. The compressor mechanism shown below is driven clockwise by a DC electric motor at a constant rate of 800 rpm, and accelerating at 1000 rad/s'. In the position shown, the cylinder pressure is 70 psi, and the plston weighs 2 lb. The coefficient of friction between the piston and the compressor cylinder is 0.5. The weight of all other...
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