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A spherical pinball has a mass of 0.125 kg and is initially at rest against a...
The ball launcher in a pinball machine has a spring of negligible mass that has a...
The ball launcher in a pinball machine has a spring of negligible mass that has a force constant of 1.2 N/cm. The surface on which the 100 g ball moves is inclined 10° above the horizontal, and offers a little bit of friction (µk=0.1). The spring is initially compressed by 5 cm. Treat the ball, incline and earth as your system. Use the work energy theorem that is appropriate for the system to find the distance the ball moves up...
A 0.19 kg mass is held at rest against a compressed spring with a spring constant...
A 0.19 kg mass is held at rest against a compressed spring with a spring constant of 103 N/m. When released, the mass leaves the spring with a speed of 6.28 m/s. Assuming that the spring force if wholly responsible for changing the motion of the mass, by what distance was the spring initially compressed from its equilibrium position?
The ball launcher in a pinball machine has a spring that has a force constant of...
The ball launcher in a pinball machine has a spring that has a force constant of 1.20 N/cm (Fig. P7.63). The surface on which the ball moves is inclined 10.0 degree with respect to the horizontal. If the spring is initially compressed 4.50 cm, find the launching speed of a 90 g ball when the plunger is released. Friction and the mass of the plunger are negligible.
use CORRECT units The ball launcher in a pinball machine has a spring that has a...
use CORRECT units The ball launcher in a pinball machine has a spring that has a force constant of 1.20 N/cm. The surface on which the ball moves is inclined 10.0° with respect to the horizontal. If the spring is initially compressed 6.00 cm, find the launching speed of a 100 g ball after the plunger is released and fully extended. Friction and the mass of the plunger are negligible.
In preparation for shooting a ball in a pinball machine, a spring (k = 752 N/m)...
In preparation for shooting a ball in a pinball machine, a spring (k = 752 N/m) is compressed by 0.0788 m relative to its unstrained length. The ball (m = 0.0585 kg) is at rest against the spring at point A. When the spring is released, the ball slides (without rolling). It leaves the spring and arrives at point B, which is 0.270 m higher than point A. Ignore friction, and find the ball's speed at point B.
In preparation for shooting a ball in a pinball machine, a spring (k = 683 N/m)...
In preparation for shooting a ball in a pinball machine, a spring (k = 683 N/m) is compressed by 0.0678 m relative to its unstrained length. The ball (m = 0.0585 kg) is at rest against the spring at point A. When the spring is released, the ball slides (without rolling). It leaves the spring and arrives at point B, which is 0.235 m higher than point A. Ignore friction, and find the ball's speed at point B.
In preparation for shooting a ball in a pinball machine, a spring(k = 675 N/m) is...
In preparation for shooting a ball in a pinball machine, a spring(k = 675 N/m) is compressed 0.0650 m from its relaxed length. Theball (m = 0.0585 kg) is at rest against the spring at Point A. Whenthe spring is released, the ball slides (without rolling andwithout colliding with other objects) to Point B, which is 0.300 mhigher than Point A. How fast is the ball moving at B? (Neglect allfriction forces.)
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...
help 2. Mass mi 10.0 kg is initially held against the spring of spring constant k...
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2. Mass mi 10.0 kg is initially held against the spring of spring constant k 100 N/m. The spring is compressed a distance x 0.45 m. When released, m, is fired towards a block of mass m 4.4 kg initially at rest at the edge of a horizontal, frictionless table of height h- 0.75 m. A ramp is placed at the end of the table. The ramp has a coefficient of kinetic friction μ-0.25 and is a distance d...
Ball A (m 0.5 kg, I 0.7 MR2) is held at rest against a spring, compressed by a distance x-40 cm. The ball is released...
Ball A (m 0.5 kg, I 0.7 MR2) is held at rest against a spring, compressed by a distance x-40 cm. The ball is released and move along a frictionless surface (Ho 4 m) until it collides with ball B (m- 0.25 kg, I- 0.5 MR2) which is at rest. After the collision, the two balls roll down a track (which has friction!) and leaves the track at a height, H,- 1m. Ball B goes to a height of HB-5m...
The ball launcher in a pinball machine has a spring that has a force constant of 1.20 N/cm (Fig. P7.63). The surface on which the ball moves is inclined 10.0 degree with respect to the horizontal. If the spring is initially compressed 4.50 cm, find the launching speed of a 90 g ball when the plunger is released. Friction and the mass of the plunger are negligible.
help
2. Mass mi 10.0 kg is initially held against the spring of spring constant k 100 N/m. The spring is compressed a distance x 0.45 m. When released, m, is fired towards a block of mass m 4.4 kg initially at rest at the edge of a horizontal, frictionless table of height h- 0.75 m. A ramp is placed at the end of the table. The ramp has a coefficient of kinetic friction μ-0.25 and is a distance d...
Ball A (m 0.5 kg, I 0.7 MR2) is held at rest against a spring, compressed by a distance x-40 cm. The ball is released and move along a frictionless surface (Ho 4 m) until it collides with ball B (m- 0.25 kg, I- 0.5 MR2) which is at rest. After the collision, the two balls roll down a track (which has friction!) and leaves the track at a height, H,- 1m. Ball B goes to a height of HB-5m...
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