How Does Hooke's Law Apply on the Moon?

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Homework Help Overview

The discussion revolves around the application of Hooke's Law in a spring experiment conducted on the Moon, where gravitational acceleration is significantly lower than on Earth. Participants explore how the gravitational force and the extension of the spring would be affected by this difference in gravity.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • Participants discuss the relationship between gravitational force and spring extension, questioning how these would change on the Moon. Some express confusion about the implications of reduced gravity on the spring's behavior, while others clarify the assumptions regarding the spring's orientation and the mass being hung from it.

Discussion Status

The discussion is active, with participants providing insights into the relationship between gravitational force and spring extension. Some have offered clarifications regarding the setup of the experiment and the implications of gravity on the spring's behavior, but there remains some uncertainty about the specifics of the extension variable.

Contextual Notes

Participants are considering the effects of a significantly lower gravitational force on the Moon, with some questioning whether the spring is oriented vertically or horizontally, which influences their reasoning about the extension of the spring.

Deetle
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Homework Statement



How would F(g) and (delta) X change if the Spring experiment was done on the moon where the gravitational acceleration is six times smaller than on earth?

Homework Equations


F(g) = (delta) mg
F(s) = k(delta) X


The Attempt at a Solution



I would think that F(g) and (delta) X would be 6 times less on the moon because there would be less gravitational pull on the spring. So if F = 68600 g cm/sec^2 and X is 26.1 cm on earth, the F = 11433 g cm/sec^2and X = 4.35 cm on the moon.

Please help.I think I'm getting the concept confused. Thanks!
 
Last edited:
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I don't think delta X would change, since that is a problem of conservation of energy assuming the system is in the horisontal position.
 
Deetle said:

Homework Statement



How would F(g) and (delta) X change if the Spring experiment was done on the moon where the gravitational acceleration is six times smaller than on earth?

Homework Equations


F(g) = (delta) mg
F(s) = k(delta) X


The Attempt at a Solution



I would think that F(g) and (delta) X would be 6 times less on the moon because there would be less gravitational pull on the spring. So if F = 68600 g cm/sec^2 and X is 26.1 cm on earth, the F = 11433 g cm/sec^2and X = 4.35 cm on the moon.

Please help.I think I'm getting the concept confused. Thanks!

You are indeed right, for the hanging spring.

The only (problem-relevant) change in this lunar setup with respect to a tellar one is the change in the value of local g, the mass and the spring constant remaining the same.

Since lunar g is one sixth of tellar g, the lunar delta will be one sixt of the delta on Earth.
 
Yes, obviously if g on the moon is "6 times smaller than on earth" (1/6 the value) and the mass remains the same, then F(g) is 1/6 what it is on earth. (Actually it works the other way- because F(g) is 1/6 what it is on earth, g is 1/6.)
On earth, F= mg. Dividing both sides of that equation by 6, (F/6)= m(g/6).

But the "spring" question is not a clear. If the spring is lying on a flat surface, gravity plays no part. Are you assuming that a weight is hanging from the spring and gravitational force is stretching it, then the same thing happens. If F is the gravitational force on Earth and F= kX, then dividing both sides by 6, (F/6)= k(X/6). Because, on the moon, the gravitational force if F/6, we also have the "stretch" equal to X/6.
 
I believe that it is in a vertical position since the weight (mass) is hanging on the end of a spring and the spring is attached to the ceiling of a room.
 
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Thank you Halls of Ivy.

I'm still unclear about X. The formula on the moon is (F/6) = K (X/6).. Is this correct?
 
I'm unclear about you problem. Use basic concepts.

When you hang a mass m on earth, and the extension is x, then force = mg = kx.

When you hang the same mass m on moon, and the extension is x2, then m(g/6) = kx2, which gives, x2 = x/6.
 

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