You connect a block to a spring, compress it a set distance, and release it so that it bounces back and forth across a frictionless surface. When would you expect the block to have its greatest velocity? Explain.
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- 2. Maria and Rory are using a spring launcher to move a 125 g block to the top of a ramp. The spring launcher is at the base of the ramp and consists of a platform and a spring with a force constant of 420 N/m. The horizontal surface at the base of the ramp is smooth and frictionless. They compress the spring by 0.12 m with the block resting against the spring launcher. Once they let go, the block travels up the 1.4 m ramp and comes to rest at the top of the ramp. The top of the ramp is 1.0 m above the ground. Ramp Experiment Ad= 1.4 m smooth frictionless surface What is the average frictional force acting on the block as it moves up the ramp? Ah=1.0 mApply error propagation to determine the associated uncertainty in the average volume… PlzA 5.00-g bullet moving with an initial speed of vi = 390 m/s is fired into and passes through a 1.00-kg block as shown in the figure below. The block, initially at rest on a frictionless, horizontal surface, is connected to a spring with force constant 860 N/m. The block moves d = 5.60 cm to the right after impact before being brought to rest by the spring a) Find the speed at which the bullet emerges from the block.=----m/s b) Find the amount of initial kinetic energy of the bullet that is converted into internal energy in bullet–block system during the collision. =-------J
- B9A block with a mass m = 7.80 kg is attached to a lightweight spring with a spring constant k = 100 N/m that is attached to a wall. Initially the block is at rest and the spring is relaxed, as shown in figure (a). A second block with a mass mg = 7.00 kg is pushed up against block m, compressing the spring a distance A = 0.210 m, as shown in figure (b). The two blocks are released from rest, and both start moving to the right with negligible friction. IS a (a) When block m, reaches the equilibrium point, as shown in figure (c), block m, loses contact with block m,. Block m, continues to move right at a speed v. What is the speed v (in m/s)? m/s (b) Block m, continues to move right, reaching the point where the spring is at the maximum stretch (for the first time), as shown in figure (d). At this point, what is the distance D between the two blocks (in cm)? (Assume the widths of the blocks are much smaller than D.) cmThe class I'm taking is physics for scientists and engineers! I am completely stuck. Need help. I have attached the problem. Please view both attachments before answering. If you can please explain your answer so I can fully understand. Thank you!
- 1. Blocks A and B move along frictionless vertical bars and are connected with a rope that wraps around the frictionless pulley at P. Block A has a mass of 2kg and block B has a mass of 10 kg. The spring shown is unstretched when block B is in contact with the ground. The system is released from rest in the position shown. Determine the speeds of A and B immediately before B hits the ground. Neglect the mass of the rope and the pulley. The linear spring has a stiffness of 40 N/m and is attached to the ground and to block B. Treat bloeks as particl es with negligible dimensions d = 2.5 m D P 1 = 4m k I h = 2 m AHow do you slove?A 0.5 kg cart starts at rest up on a right side of the ramp as shown. The cart is allowed to roll down the ramp (h1 = 0.3 m vertically) before coming back up (h2 = 0.13 m vertically) and hitting a spring. The spring (k=200 N/m) attains a maximum compression of 0.05 m stopping the cart for a split second before being shot back to the right. From the top of the ramp to fully compressing the spring, how much thermal energy was created? he