What is the value of the spring constant k?

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Homework Help Overview

The discussion revolves around determining the value of the spring constant k for a system involving a 20-kg mass attached to a vertically hanging spring. The mass is initially given a downward velocity and reaches a maximum displacement from its equilibrium position.

Discussion Character

  • Exploratory, Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants discuss the relationship between kinetic energy and potential energy in the context of the spring's behavior. There are attempts to apply the equation mg - kΔy = 0 and considerations of energy conservation principles.

Discussion Status

The discussion is ongoing, with participants seeking clarification on how to approach the problem. Some guidance has been offered regarding the concepts of kinetic and potential energy, but there is no consensus on the method to find k.

Contextual Notes

Participants express uncertainty about the equations and concepts involved, particularly regarding the conservation of energy and the specific formula for potential energy in a spring. There is a repeated request for explanations rather than direct solutions.

mathgirl2007
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A 20-kg mass was initially at rest, attached to the end of a vertically hanging spring. When given an initial downward velocity of 2 m/s from its equilibrium rest position, the mass was observed to attain a maximum displacement of 0.2m from its equilibrium position. What is the value of the spring constant k?


Please help me. I cannot figure this one out. I think the equation is just mg-kdeltay=0 but I can't figure it out. I know 20 kg is the mass. w=mg=20(9.8)=196.

Thanks in advance for all of your help!
 
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mathgirl2007 said:
A 20-kg mass was initially at rest, attached to the end of a vertically hanging spring. When given an initial downward velocity of 2 m/s from its equilibrium rest position, the mass was observed to attain a maximum displacement of 0.2m from its equilibrium position. What is the value of the spring constant k?


Please help me. I cannot figure this one out. I think the equation is just mg-kdeltay=0 but I can't figure it out. I know 20 kg is the mass. w=mg=20(9.8)=196.

Thanks in advance for all of your help!

If it has velocity, it has kinetic energy. The kinetic energy will get absorbed by the retarding force of the spring as the velocity slows. When the velocity goes to 0, the spring should be at maximum displacement.
 
i really don't understand this one.
can someone please just explain how to find k for me
 
mathgirl2007 said:
i really don't understand this one.
can someone please just explain how to find k for me

What is the kinetic energy of the mass when it is moving at 2 m/s?

When that kinetic energy is reduced to 0 by the spring, how much potential energy is then stored in the spring. (Hint: Conservation of Energy)

What is the formula for potential energy stored in a spring? (Hint: It involves the spring constant k.)
 

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