The answer is 1.537 m/s. Just need help with the working out!! A slider with 3...
dynamics Figure Q2(a) shows a slider of mass m slides along a frictionless circular rod in a vertical plane. The collar is acted by a constant force P in the direction = tan 3/4 as shown. Draw the FBD and the KE diagrams of the system at position 1 and 2 respectively. Calculate the normal reaction between the collar and rod at position 2 if R = 0.6 m, mass of slider = 3kg, the unstretched length of spring =...
Chapter D3, Problem D3/112 The 0.8-kg slider is released from rest in position A and slides without friction along the vertical-plane guide shown. Determine (a) the speed va of the slider as it passes position B and (b) the maximum deflection of the spring 0.8 kg 3.4 m k 34 kN/m E 30 2.0 m C 30X В Answers: (a) VB m/s (b) o mm
Chapter 3, Problem 3/111 GO Tutorial spring has an unstretched length of 0.46 m and a stfhess of 318 N/m. The 3,5-kg slider and attached spring are released from rest at A and move in the vertical plane. Calculate the velocity v of the slider as it reaches 8 in the absence of friction. ㄣ 0.77 m 气B -0.56 m m/s Anwer: v the tolerance is +/-296
The small slider A is moved along the circular slot by a mechanism attached to the back side of the rectangular plate. For the slider position θ = 24° shown, determine the normal forces exerted at the small stops C and D. The unstretched length of the spring of constant k = 2.6 kN/m is R/5. The value of R is 20 mm, and the plate lies in a horizontal plane. Neglect all friction. Before answering the question parts, draw...
You pull on a string with a horizontal force F = 34 N that is attached to a block of mass mb = 7.1 kg, then to the axle of a solid cylinder of mass mc = 5.7 kg and radius r = 0.4 m, then to a spring of spring constant k = 115 N/m. This is all done on an inclined plane where there is friction ( Us = 0.6 and k = 0.30 ), and the incline...
dynamic the answer is not 1.01 The 16-kg block A slides on the surface for which 4 = 0.3. The block has a velocity v = 11 m/s when it is s 3 m from the 11-kg block B. The unstretched spring has a stiffness k 1000 N/m . Take e = 0.6. The coefficient of friction is the same for both blocks. k WA B A Part A Determine the maximum compression of the spring due to the collision.
How do you solve this problem without the work/energy method? -0.3m- hec The block has a mass of 0.8 kg and moves within the smooth vertical slot. If it starts from rest when the attached spring is in the unstretched position at A, determine the constant vertical force F which must be applied to the cord so that the block attains a speed vg = 2.5 m/s when it reaches B; $ = 0.15 m. Neglect the size and mass...
this is a take home quiz. Caption Emphasi Heading Heading 2 Heading 3 04 11:0011:50 Slider A is released from rest at position A and slides without friction. Using mA = 1.2 kg, Determine: 1. the speed vR of the slider as it passes 1.2kg position B 2. the maximum deflection of the spring. 3. the normal force exerted by the guide 3 m on the slider just before it passes point C. 30° D k-24 kN/m 30 1.5 m...
The 18-kg block A slides on the surface for which μk = 0.3. The block has a velocity v = 11 m/s when it is s = 4 m from the 12-kg block B. The unstretched spring has a stiffness k = 1200 N/m . Take e = 0.6. The coefficient of friction is the same for both blocks. Determine the maximum compression of the spring due to the collision.
As indicated in the figure, a steel ball (m 200 g) is attached to a massless elastic cord which is initially not stretched. When the ball is released from rest at A, t slides without friction through a thin curved tube with constant radius of curvature r = 70.0 cm. The cord stretches as the ball slides down the tube and follows the curvature of the surface, as indicated by the thick dashed line in the figure. Furthermore, the cord...