3. For the following problem, determine the reaction forces at pin A and roller B. [Ax=0; Ay=20kN 1; BN-20kN 1] 6 kN/m 6 kN/m 4 kN/m 4 m + 4 m B
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- 2. A pair of connected pulleys receive a force F = 100 N and P = 150 N as depicted in the image. The radius of pulley 1 is r₁ = 500 mm, and the radius of pulley 2 is r₂ = 950 mm. The pulley system has a radius of gyration of ko = 0.5 m and mass of 50kg. Determine the following: 1. Reaction force in the x direction 2. Reaction force in the y direction 3. Angular acceleration of the pulley F PThe three configs are A, B, and C in the picture4
- When activated by the force P,the gripper on a robotic arm is able to pick up objects by applying the gripping force F as shown in the figure below. Given that P = 120N,calculate the gripping force F in N for the position shown.Help!!! Please answer Correctly !! Clearly solved Please !!!!!!!!Show all steps and solution. Solve both analytical and graphical
- Consider the double mass spring system shown in the figure below. www x₁ = 197} The positions X₁ and x₂ of the two masses are given by the system [90-1* m2 x2 = = 197₂ -(k₁ + K₂) k2 X1 ][*] Xx2 k₂ -(k₂ + k3) + F. Let m₁ = 1, m₂ = 1, k₁ F₁ = 9 cos(6t) on the first mass and a force F2 = 0 on the second and the masses start from rest ( x₁ (0) = x₂(0) = 0 ) and at their equilibrium positions ( x₁ (0) = x₂(0) = 0 ), find the resulting motion of the system. = 1, k₂ = 4 and k3 = 1. If the forcing imparts a force2. The mechanical system shown in figure is driven by the applied force fa(t). When x1 = x2 = x3 = 0, the springs are neither stretched nor compressed. a. Draw the free body diagram(s) and write the differential equations. X1 B₁ XXXXXX Hell M₁ K K B2 1 M3 fa(t) moo M₂ K relet K x22 Don't copy paste ans