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A horizontal spring with spring constant 30 N/m is compressed by 5 cm by a 10...
Question 5 1 pts A horizontal spring with spring constant 30 N/m is compressed by 5...
Question 5 1 pts A horizontal spring with spring constant 30 N/m is compressed by 5 cm by a 10 gram mass. After the mass is released, it accelerates due to the potential energy of the spring. Use conservation of energy to determine what speed the 10 gram mass reaches after being pushed by the spring. Answer in units of m/s and round to 3 significant figures.
1. A 30 cm spring with constant 70 N/m is compressed to 10 cm and placed...
1. A 30 cm spring with constant 70 N/m is compressed to 10 cm and placed between two carts. Cart A has mass m Skg and mg is unknown. Initially the system is at rest. After it is released it is observed that cart A has three times the velocity of cart B. a) What force must be exerted initially to keep the spring compressed? b) What is the work done to compress the spring? c) By considering conservation of...
A 2.25-kg mass is pushed against a horizontal spring of force constant 23.7 N/cm on a...
A 2.25-kg mass is pushed against a horizontal spring of force constant 23.7 N/cm on a frictionless air table. The spring is attached to the tabletop, and the mass is not attached to the spring in any way. When the spring has been compressed enough to store 11.6 J of potential energy in it, the mass is suddenly released from rest.(a) Find the greatest speed the mass reaches. m/s ? (b) What is the greatest acceleration of the mass m/s2...
A 2.60 kg mass is pushed against a horizontal spring of force constant 25.0 N/cm on...
A 2.60 kg mass is pushed against a horizontal spring of force constant 25.0 N/cm on a frictionless air table. The spring is attached to the tabletop, and the mass is not attached to the spring in any way. When the spring has been compressed enough to store 12.5 J of potential energy in it, the mass is suddenly released from rest. Part A Find the greatest speed the mass reaches. Part C What is the greatest acceleration of the...
A 2.00 kg mass is pushed against a horizontal spring of force constant 28.0 N/cm on...
A 2.00 kg mass is pushed against a horizontal spring of force constant 28.0 N/cm on a frictionless air table. The spring is attached to the tabletop, and the mass is not attached to the spring in any way. When the spring has been compressed enough to store 13.5 J of potential energy in it, the mass is suddenly released from rest. B) When does this occur? C) What is the greatest acceleration of the mass?
A spring with a spring constant of 718 N/m lies on a horizontal surface and that...
A spring with a spring constant of 718 N/m lies on a horizontal surface and that surface is y = 0 m to calculate the gravitational potential energy. A mass of 3 kg is compressed 0.45 meters into the spring and held still. After the mass is released it slides over a horizontal surface in which a 3.4 meter portion of the surface has friction with a coefficient of kinetic friction of 0.30. After the horizontal surface, it travels up...
10. (10 points) A ball of mass 135 g is placed in contact with a horizontal...
10. (10 points) A ball of mass 135 g is placed in contact with a horizontal spring, which is compressed by a distance of 12 cm. The spring constant of this particular spring is 384 N/m (a) Evaluate the elastic potential energy stored in the compressed spring. (b) Now the spring is released, launching the ball horizontal. Find the speed of the ball immediately after it is launched.
A spring of spring constant 620 N/m is compressed 10.0 cm and used to launch a...
A spring of spring constant 620 N/m is compressed 10.0 cm and used to launch a 12.0 gram mass straight up. What is the maximum height of the mass?
A Hooke's law spring constant k=7 220 N/m is compressed 12.0 cm from equilibrium using a...
A Hooke's law spring constant k=7 220 N/m is compressed 12.0 cm from equilibrium using a 1 kg mass starts to move up on a frictionless inclined plane. Find the velocity immediately after it is released. Find its potential energy as it moves up 3 meters.
9. A spring with spring constant 8000 N/m sits vertically on a horizontally surface. The spring...
9. A spring with spring constant 8000 N/m sits vertically on a horizontally surface. The spring has an equilibrium length of 20 cm. A 3.0 kg ball is pushed down so that the spring is compressed by 12 cm and released from rest. You may neglect the effects of air resistance. eq. 20 cm 12 cm a. How much energy must you supply the system to compress the spring by 12 cm? Remember to include both gravitational and spring potential...
Question 5 1 pts A horizontal spring with spring constant 30 N/m is compressed by 5 cm by a 10 gram mass. After the mass is released, it accelerates due to the potential energy of the spring. Use conservation of energy to determine what speed the 10 gram mass reaches after being pushed by the spring. Answer in units of m/s and round to 3 significant figures.
1. A 30 cm spring with constant 70 N/m is compressed to 10 cm and placed between two carts. Cart A has mass m Skg and mg is unknown. Initially the system is at rest. After it is released it is observed that cart A has three times the velocity of cart B. a) What force must be exerted initially to keep the spring compressed? b) What is the work done to compress the spring? c) By considering conservation of...
10. (10 points) A ball of mass 135 g is placed in contact with a horizontal spring, which is compressed by a distance of 12 cm. The spring constant of this particular spring is 384 N/m (a) Evaluate the elastic potential energy stored in the compressed spring. (b) Now the spring is released, launching the ball horizontal. Find the speed of the ball immediately after it is launched.
9. A spring with spring constant 8000 N/m sits vertically on a horizontally surface. The spring has an equilibrium length of 20 cm. A 3.0 kg ball is pushed down so that the spring is compressed by 12 cm and released from rest. You may neglect the effects of air resistance. eq. 20 cm 12 cm a. How much energy must you supply the system to compress the spring by 12 cm? Remember to include both gravitational and spring potential...
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