Gravitational force, springs, and mass

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Homework Help Overview

The discussion revolves around a problem involving gravitational force and spring mechanics. The original poster describes a scenario where a 100 gram mass is suspended from a spring, resulting in a 10 centimeter stretch of the spring. The questions posed relate to calculating the gravitational force acting on the mass and understanding the force exerted by the spring.

Discussion Character

  • Mixed

Approaches and Questions Raised

  • Participants discuss the gravitational force using the equation F=mg and explore the implications of the spring-mass system being in equilibrium. There are attempts to clarify the relationship between gravitational force and spring force, as well as questions about the spring constant (k) and its role in the problem.

Discussion Status

Some participants have confirmed the calculation of gravitational force, while others are exploring the concept of equilibrium in the spring-mass system. There is ongoing clarification regarding the forces involved, but no consensus has been reached on the specifics of the spring force or the value of k.

Contextual Notes

Participants are navigating the constraints of the problem, including the need to understand the relationship between gravitational force and spring force without complete information on the spring constant. The urgency expressed by the original poster indicates a time constraint for completing the homework.

dragon162
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Homework Statement


Suppose that I hang a 100 gram mass from a spring. When I do this, I find that the srping stretches 10 centimeters.

1)What is the gravitational force on the mass that I hang from the spring? give your answer in Newtons

2)what is the force that the spring is exerting on the mass?

Homework Equations


F=-ky
F=mg

The Attempt at a Solution


ok so I figured most of the problem out, I know that its a simple problem but I am just stuck on the first part and don't really know how to begin the second question. What I did was use the two equations i gave to solve for g=-ky/m but my problem is i don't know what k is or how to get it. As for the second part, i just have no idea how to start it. Thanks for any help in advance.
 
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The gravitational force is just mg.

For the second part, if the spring-mass system is at rest when the spring is stretched 10 cm, what does that mean the spring force has to be at 10 cm?
 
jhae2.718 said:
The gravitational force is just mg.


For the second part, if the spring-mass system is at rest when the spring is stretched 10 cm, what does that mean the spring force has to be at 10 cm?
So, all I have to do is use the 100 grams and the acceleration due to gravity, 9.8. So (100g)(9.8)=980 and then just convert that to N?

For the second part, doesn't that mean that the spring force has to be at equilibrium so its at zero?
 
bump anymore help please have things to do today so I need to get this done early. Thanks for anyhelp in advance
 
You're correct on the first part. The gravitational force is 0.1 kg * 9.8m/s^2 = 0.98 N.

For the second part, we treat the system as if it were in equilibrium, so the sum of the forces must be zero. The spring force is nonzero.
 
jhae2.718 said:
You're correct on the first part. The gravitational force is 0.1 kg * 9.8m/s^2 = 0.98 N.

For the second part, we treat the system as if it were in equilibrium, so the sum of the forces must be zero. The spring force is nonzero.

Well since the sum will be zero then the spring force must cancel out the effect of gravity. So would it be 9.8 to counter the -9.8m/s^2.
 
dragon162 said:
Well since the sum will be zero then the spring force must cancel out the effect of gravity. So would it be 9.8 to counter the -9.8m/s^2.

You're talking about acceleration instead of force when you refer to gravity. The force of gravity is W=mg, where g=9.8m/s^2. (Sign is based on coordinate system, but it always points "down".)

So, the magnitude of the spring force when the displacement is 10 cm is equal to mg in this case.
 
jhae2.718 said:
You're talking about acceleration instead of force when you refer to gravity. The force of gravity is W=mg, where g=9.8m/s^2. (Sign is based on coordinate system, but it always points "down".)

So, the magnitude of the spring force when the displacement is 10 cm is equal to mg in this case.

Ah ok I understand it now. Thanks for all your help kind sir and have a nice day.
 

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