How Does Deformation Affect the Net Force Between Two Masses?

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Deformation of mass m1 under the weight of mass m2 affects the net force experienced by both masses. Initially, there is a net force causing m1 to deform, similar to how a trampoline sags when weight is applied. Once m1 stops deforming, the forces become balanced, and the normal force on m1 equals the combined weight of both masses. If m1 undergoes plastic deformation, a scale underneath may register less weight during the deformation phase. Ultimately, the weight force remains a function of mass and gravity, which does not change despite deformation.
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Homework Statement
Suppose you have two masses m1 and m2 with m2 on top of m1. I understand the normal force acting on m1 will be m1g+m2g and normal force on m2 will just be m2g but wanted to know, is this only true for rigid masses? If m1 was able to deform from the weight of m2 above it (like a trampoline for example), would a scale underneath m1 register less weight now?
Relevant Equations
Thanks
S
 
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John781049 said:
Homework Statement:: Suppose you have two masses m1 and m2 with m2 on top of m1. I understand the normal force acting on m1 will be m1g+m2g and normal force on m2 will just be m2g but wanted to know, is this only true for rigid masses? If m1 was able to deform from the weight of m2 above it (like a trampoline for example), would a scale underneath m1 register less weight now?
Relevant Equations:: Thanks

S
Consider the vertical balance of forces on each mass. Can there be a net force on either?
 
I think there is for m1 because it wouldn't deform otherwise.
 
John781049 said:
I think there is for m1 because it wouldn't deform otherwise.
Equal and opposite forces are quite able to deform objects.
What does ΣF=ma tell you about the consequences of a net force?
 
haruspex said:
Equal and opposite forces are quite able to deform objects.
What does ΣF=ma tell you about the consequences of a net force?
Well, there is a net force initially then while m1 deforms but once it's stopped deforming forces are balanced? I think it would be like with a trampoline. If someone stands on the trampoline, there's a net force that causes the ropes to sag downwards when you land from each jump and once the trampoline doesn't sag anymore, it will propel you back up.
 
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Even if mass 1 is not elastic and suffers a plastic deformation under the weight of mass 2, would a scale underneath mass 1 and 2 register less weight?

Tip: Weight force is only the result of the combination of mass and the acceleration of gravity.
Have any of those changed for mass 1?
 
John781049 said:
there is a net force initially then while m1 deforms but once it's stopped deforming forces are balanced?
Yes.
Does that answer your original question?
 

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