A 388 g mass is hung on the spring assembly shown below. The mass stretches the springs to equilibrium. Each spring has a spring constant of 0.75 N/cm. Use g = 10 N/kg. Determine the change in gravitational potential energy of the mass.
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A 388 g mass is hung on the spring assembly shown below. The mass stretches the springs to equilibrium. Each spring has a spring constant of 0.75 N/cm. Use g = 10 N/kg.
Determine the change in gravitational potential energy of the mass.
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- A spring whose stiffness is 1010 N/m has a relaxed length of 0.55 m. If the length of the spring changes from 0.32 m to 0.77 m, what is the change in the potential energy of the spring? AU = Additional Materials еВookPlease include explanations and work for the problems. Please write it out to make it easy to understand.1. A boy swings back and forth on a swing whose ropes are 4.10 m long. The maximum height he reaches is 3.07 m above the ground. At the lowest point of the swing, he is 0.75 m above the ground. What is the boy's maximum speed? x3.83 m/s 20116 cci16 16 cci16 c ceil6 ccil
- A block of mass 2.80 placed against a horizontal spring of constant k 885 N/m and pushed so the spring compresses by 0.0550 m. What is the elastic potential energy of the block spring system in J? if the block is now released and the surface is frictionless calculate the blocks speed in m/s after leaving the springA spring whose stiffness is 1130 N/m has a relaxed length of 0.53 m. If the length of the spring changes from 0.32 m to 0.80 m, what is the change in the potential energy of the spring? AU = i J4. A large block with a mass of 8.5 kg slides along a horizontal surface without friction. The block runs into a horizontal spring with a spring constant of 260 N/m and compresses the spring by 50 cm before coming to a stop. How fast is the block moving when it just hit the spring? What is the potential energy of the spring, the kinetic energy of the block, and the total mechanical energy of the system when the block is halfway to its stopping position? That is, find these quantities when the block is at 25 cm and still moving.
- A 31 kg child uses a pogo stick to bounce up and down. The spring constant, k, of the toy equals 8,700 N/m. (a) By how much would the spring be compressed by the child if she simply balanced herself vertically on the pedals of the stick? (Give your answer in cm.) cm (b) How much energy (in J) is stored in the spring under this circumstance? JA 10.0kg cart is released from rest with no slack in the cable and with the string unstretched. The spring constant is 125 N/m. a). When m=0, the cart travelled 0.663m before coming to rest. Determine the work done on the spring. b). When m=2.0kg, the cart travelled 0.349m before coming to rest. Determine the work done on the spring.2. The potential energy function associated with a force acting on a system is U = 3x3 – 5x. a) What is the equation for force for this system? b) Draw a graph of the potential energy. Indicate the points of equilibrium and note whether they are stable, unstable or neutral.
- At which point or points is the total energy at its maximum value? At which point or points is the kinetic energy positive?(8c7p50) A 0.45 kg mass sliding on a horizontal frictionless surface is attached to one end of a horizontal spring (with k = 725 N/m) whose other end is fixed. The mass has a kinetic energy of 12.0 J as it passes through its equilibrium position (the point at which the spring force is zero). At what rate is the spring doing work on the mass as the mass passes through its equilibrium position? Submit Answer Tries 0/5 At what rate is the spring doing work on the mass when the spring is compressed 0.091 m and the mass is moving away from the equilibrium position? Submit Answer Tries 0/5 This discUSsion is closod Send FeedbacA ball is attached to a vertical spring with a spring constant of 6.0 N/m.it is held at the equilibrium position of the spring and then released. it falls 0.40m and then bounce back up again. Calculate the mass of the ball