A spring with a spring constant of ?=211.0 N/m is oriented vertically, with one end on...
A spring with a spring constant of ?=211.0 N/m
is oriented vertically, with one end on the ground.
What distance does the spring compress when an ?=1.73 kg
object is placed on its upper end?
compression distance:
m
How much does the potential energy stored in the spring increase during the compression?
increase in potential energy:
Homework Answers
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A spring with a spring constant of ?=211.0 N/m
is oriented vertically, with one end on...
A spring with k = 1340 N/m is oriented vertically with one end attached to the...
A spring with k = 1340 N/m is oriented vertically with one end attached to the ground. A 7.27-kg bowling ball is dropped from 1.75 m above the top of the spring. Find the maximum Spring compression.
5. An object of mass m is placed on the end of a vertically oriented spring...
5. An object of mass m is placed on the end of a vertically oriented spring with spring constant k and then the spring (with the object) is compressed a distance of x. The object is released and reaches a height h, above the point from where it was released. How much should the spring be compressed in order for the object to go three times as high (i.e., 3h.)? а. Зхо b. xo 9хо С. d. e. 27хо
A spring oriented vertically is attached to a hard horizontal surface as in the figure below....
A spring oriented vertically is attached to a hard horizontal surface as in the figure below. The spring has a force constant of 1.67 kN/m. How much is the spring compressed when a object of mass m 2.05 kg is placed on top of the spring and the system is at rest? าวลู 0.0120 X Your response is off by a multiple of ten. cm
The force constant of a spring is 550 N/m. How much elastic potential energy is stored...
The force constant of a spring is 550 N/m. How much elastic potential energy is stored in the spring if the spring is compressed a distance of 1.2 cm? What is the force being used to compress the spring?
9. A spring with spring constant 8000 N/m sits vertically on a horizontally surface. The spring...
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when a small spring has constant of 561 N/m. when it is compressed .0113m how much...
when a small spring has constant of 561 N/m. when it is compressed .0113m how much elastic potential energy is stored? How much force was needed to compress the spring this much?
"A horizontal spring with force constant k = 810 N/m is attached to a wall on...
"A horizontal spring with force constant k = 810 N/m is
attached to a wall on one end. The other end of the spring is
attached to a 1.90 kg object that rests upon a frictionless
countertop, as shown below."
Help with any or all of these would be greatly appreciated,
thank you!
3. [0/3 Points] DETAILS PREVIOUS ANSWERS SERCP11 13.4.OP.021. MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER A horizontal spring with force constant k = 810 N/m is attached...
A 0.585 kg cart compresses a spring, with a spring constant of 118 N/m, 0.36 m...
A 0.585 kg cart compresses a spring, with a spring constant of 118 N/m, 0.36 m on a flat track that sits 1.3 m above the ground. How much elastic potential energy is stored in the spring? Include units: How much kinetic energy will the cart have after it is released and the spring is no longer touching the cart? Ignore friction and air resistance. Include units: What will the velocity of the cart be after it is released and...
A spring is suspended vertically from a fixed support. The spring has spring constant k=24 N m −1 k=24 N m−1 . An object...
A spring is suspended vertically from a fixed support. The
spring has spring constant k=24 N m −1 k=24 N m−1 . An object of
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please help with this problem! SPRING CONSTANT, known as "k", IS 18 N/m Situation: A 0.80-meter...
please help with this problem!
SPRING CONSTANT, known as "k", IS 18 N/m
Situation: A 0.80-meter spring is set on top of a table. The tabletop is 1.0 meters in length. The table is pushed up against a wall and one end of the spring is attached to the wall. A woodblock of mass 0.1kg is placed at the other end of the free spring. The woodblock is pushed against the spring causing the spring to compress. When held in...
A spring with k = 1340 N/m is oriented vertically with one end attached to the ground. A 7.27-kg bowling ball is dropped from 1.75 m above the top of the spring. Find the maximum Spring compression.
5. An object of mass m is placed on the end of a vertically oriented spring with spring constant k and then the spring (with the object) is compressed a distance of x. The object is released and reaches a height h, above the point from where it was released. How much should the spring be compressed in order for the object to go three times as high (i.e., 3h.)? а. Зхо b. xo 9хо С. d. e. 27хо
A spring oriented vertically is attached to a hard horizontal surface as in the figure below. The spring has a force constant of 1.67 kN/m. How much is the spring compressed when a object of mass m 2.05 kg is placed on top of the spring and the system is at rest? าวลู 0.0120 X Your response is off by a multiple of ten. cm
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...
"A horizontal spring with force constant k = 810 N/m is
attached to a wall on one end. The other end of the spring is
attached to a 1.90 kg object that rests upon a frictionless
countertop, as shown below."
Help with any or all of these would be greatly appreciated,
thank you!
3. [0/3 Points] DETAILS PREVIOUS ANSWERS SERCP11 13.4.OP.021. MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER A horizontal spring with force constant k = 810 N/m is attached...
A spring is suspended vertically from a fixed support. The
spring has spring constant k=24 N m −1 k=24 N m−1 . An object of
mass m= 1 4 kg m=14 kg is attached to the bottom of the spring. The
subject is subject to damping with damping constant β N m −1 s β N
m−1 s . Let y(t) y(t) be the displacement in metres at the end of
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please help with this problem!
SPRING CONSTANT, known as "k", IS 18 N/m
Situation: A 0.80-meter spring is set on top of a table. The tabletop is 1.0 meters in length. The table is pushed up against a wall and one end of the spring is attached to the wall. A woodblock of mass 0.1kg is placed at the other end of the free spring. The woodblock is pushed against the spring causing the spring to compress. When held in...
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