Extension in spring with unequal forces acting on its two ends

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Homework Help Overview

The discussion revolves around a physics problem involving two masses connected by a spring, with unequal forces acting on each mass. The participants explore the relationship between the forces, spring extension, and the resulting accelerations of the masses.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • Participants examine the implications of applying forces F1 and F2 on the two masses and question the assumptions regarding the spring's behavior and the system's dynamics. There are discussions about the net forces acting on each mass and the conditions under which the spring extends.

Discussion Status

Some participants have identified errors in their initial assumptions and have proposed equations relating the forces and accelerations. There is ongoing exploration of the implications of frictionless surfaces and the necessity of spring extension in the context of the forces applied.

Contextual Notes

Participants note that the problem may have insufficient equations for the number of unknowns, leading to confusion about the system's behavior. The assumption of no relative motion between the masses is also highlighted as a critical point in the discussion.

@bhishek
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Two masses m1 and m2 are connected by by spring of spring constant k. If two forces F1 and F2 acts on the two masses respectively in mutually opposite direction (i.e. outwards) what would be the extension in the spring and the acceleration of the two masses.

I think that if assuming F1>F2
then the extension in spring should be equal to x= F2/k
and the forces acting on m1 would be F1 in forward and kx(F2) in backward direction.
and on m2 F2 in backward and kx(F2) in forward direction.

Where am I wrong in my assumption?
 
Last edited:
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@bhishek said:
I think that if assuming F1>F2
then the extension in spring should be equal to x= F2/k
and the forces acting on m1 would be F1 in forward and kx(F2) in backward direction.
and on m2 F2 in backward and kx(F2) in forward direction.

Where am I wrong in my assumption?
If the spring force equaled F2, what would be the net force on m2? Is that reasonable?
 
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Thanks

Thank you. I noticed were I was wrong.
In this case the eqn would be
F1-kx = m1*a
kx- F2 = m2*a
Solving we would get
x= (m2*F1+ m1* F2)/(k)(m1+m2)
 
@bhishek said:
Thank you. I noticed were I was wrong.
In this case the eqn would be
F1-kx = m1*a
kx- F2 = m2*a
Solving we would get
x= (m2*F1+ m1* F2)/(k)(m1+m2)
Looks good to me.

Note that you are solving for the special case where there is no relative motion of the masses--the spring extension remains constant.
 
Doc Al said:
Looks good to me.

Note that you are solving for the special case where there is no relative motion of the masses--the spring extension remains constant.
In the same special case with no relative motion if we put m1=m2 and F2=0 (the surface is friction-less, I forgot to mention it earlier) then the extension in the spring comes to F1/(2*k)
Then how could there be extension when there is no friction acting on the masses?
 
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@bhishek said:
In the same special case with no relative motion if we put m1=m2 and F2=0 (the surface is friction-less, I forgot to mention it earlier) then the extension in the spring comes to F1/(2*k)
Right. (I has assumed there was no friction since you did not mention any.)

Then how could there be extension when there is no friction acting on the masses?
Why would you need friction?
 
There seems to be something wrong with this problem statement. There appear to be 3 unknowns (the relative displacement x, and the acceleration of each of the two masses a1 and a2), but only two equations.

Chet
 
Chestermiller said:
There seems to be something wrong with this problem statement. There appear to be 3 unknowns (the relative displacement x, and the acceleration of each of the two masses a1 and a2), but only two equations.
We are assuming no relative motion of the masses, so there is a single acceleration. (That assumption should have been made explicit in the problem statement.)
 
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Doc Al said:
Right. (I has assumed there was no friction since you did not mention any.)


Why would you need friction?

If the surface is friction less then why should there be any extension in spring. Shouldn't the spring be able to pull the block m2 without any extension?
 
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@bhishek said:
If the surface is friction less then why should there be any extension in spring. Shouldn't the spring be able to pull the block m2 without any extension?
A spring cannot pull without extension. (An unstretched spring exerts zero force.)

The force exerted on m1 drags the entire system along. Some of that force is transmitted to m2 via the spring.
 
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  • #11
Doc Al said:
A spring cannot pull without extension. (An unstretched spring exerts zero force.)

The force exerted on m1 drags the entire system along. Some of that force is transmitted to m2 via the spring.

That solves the problem. :D
 

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