What is required for change? Force or Energy?

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Discussion Overview

The discussion centers around the fundamental concepts of change in physical systems, specifically debating whether force or energy is more essential to the notion of change. Participants explore theoretical implications, philosophical considerations, and the application of mechanics in understanding these concepts.

Discussion Character

  • Debate/contested
  • Conceptual clarification
  • Exploratory
  • Technical explanation

Main Points Raised

  • Some participants argue that energy is fundamental as it represents the capacity to do work and is essential for the existence of a physical universe.
  • Others propose that force may be more fundamental, as it is described as the space derivative of energy and is necessary for an object to change its state of rest.
  • A participant suggests that the discussion may hinge on the interpretation of "fundamental" and its implications for understanding change.
  • One viewpoint emphasizes that change is inherently linked to time, suggesting that any entity can exhibit change without being fundamentally tied to force or energy.
  • Another participant discusses Hamiltonian and Lagrangian mechanics, noting that these frameworks rely on potential energy functions and questioning their applicability in non-conservative systems.
  • Concerns are raised about the limitations of Hamiltonian mechanics in accounting for systems with loss terms or non-conservative forces, suggesting that this may impact the completeness of the theoretical framework.
  • A participant states that change can occur without additional force or energy, referencing the motion of objects in space, which introduces a philosophical dimension to the discussion.

Areas of Agreement / Disagreement

Participants express differing views on whether force or energy is more fundamental to the concept of change, with no consensus reached. Some argue for the primacy of energy, while others advocate for force, and additional perspectives introduce philosophical considerations about the nature of change itself.

Contextual Notes

Limitations include the varying interpretations of "fundamental," the dependence on specific definitions of force and energy, and the unresolved implications of non-conservative systems in the context of Hamiltonian mechanics.

runner108
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I'm wondering what is more fundamental to the concept of something changing, force or energy. As I see it, energy is the capacity of a system to do work. Also if we don't have energy in the universe, there is no physical universe for us to experience. Must be pretty fundamental. On the other hand if I separate the notion of 'what' changes from 'the process of change' it seems force is a bit more fundamental. Force is the space derivative of energy. An object at rest stays at rest unless a force is acted upon it.

Just curious your thoughts?
 
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Id go with change.
 
I think this will turn into a discussion on what "fundamental" means.
 
It has everything to do with time and nothing to do with anything else, IMO. change = d/dt, anything can have non-zero d/dt, and it is not fundamentally more linked to one "thing" than another, just as one function is not more fundamentally linked to one point in its domain than another. Very philosophical.
 
As far as I understand the subject, Hamiltonian and Lagrangian mechanics are expressed in terms of a potential energy function, and all forces internal to the system are derivatives of this potential function.

It never ceases to bug me though, because doing that constrains the type of systems you can express without contrived time dependence terms to forces expressable with a potential function. Not all fields in general have a potential, only irrotational ones.

There are tons of problems in engineering where you have loss terms, or source terms, or boundary conditions, and as far as I understand the subject yet, you can't give a hamiltonian for something with loss terms. Any situation where you don't have the last, most fundamental, complete accounting of your system is not going to be perfectly conservative, and the nonconservativeness of it is going to be important.

So why in the world did physicists decide to take Hamiltonian mechanics, rather than the more general Newtonian mechanics when they moved forward with reletavistic and quantum mechanics? Didn't they worry they were going to be missing something eventually when they ran into a nonconservative situation?
 
Last edited:
MadRocketSci2 said:
Any situation where you don't have the last, most fundamental, complete accounting of your system is not going to be perfectly conservative, and the nonconservativeness of it is going to be important.

Indeed. When there's friction, you cannot use these methods (well, there are some extensions where you can still tweak things so that you can emulate some sort of friction, but in all generality you are right).

So why in the world did physicists decide to take Hamiltonian mechanics, rather than the more general Newtonian mechanics when they moved forward with reletavistic and quantum mechanics? Didn't they worry they were going to be missing something eventually when they ran into a nonconservative situation?

Well, their bet was that on the most fundamental level, things ARE conservative. And apparently they made the right bet. So these techniques are indeed only useful if we consider things on their most fundamental level (that is, when we do not neglect degrees of freedom which play a role).
 
i guess to clarify I can just state my opinion and the more knowledgeable folk can correct me where I go astray.

In order to have change a force has to be acted on something. What is this something? Force is both:

a) the space derivative of energy
b) time derivative of momentum.

Reworded it seems: if we see something change. It is either due to a change in energy as it relates to space or a change in momentum as it relates to time.

Thanks..
 
i guess to clarify I can just state my opinion and the more knowledgeable folk can correct me where I go astray.

In order to have change a force has to be acted on something. What is this something? Force is both:

a) the space derivative of energy
b) time derivative of momentum.

Reworded it seems: if we see something change. It is either due to a change in energy as it relates to space or a change in momentum as it relates to time.

That's sort of what Hamilton's equations say:

dp/dt = -d/dq H(p,q,t)
dq/dt = d/dp H(p,q,t)

where H, under certain restrictions, is the system energy


The time rate of the momentum is equal to the coordinate change rate of the potential function.
 
An object in motion will continue to change its position without additional force or energy. So in that sense neither force nor energy are required for change.
 
  • #10
Thanks MadRocketSci2, appreciate it!

DaleSpam said:
An object in motion will continue to change its position without additional force or energy. So in that sense neither force nor energy are required for change.

It's a good point Dale. Of course if two objects were floating by each other in space there is a reference frame where either object isn't moving. If a universe existed such that there was no force but only freely floating objects, it would be a fairly deterministic universe huh.. guess that's getting into philosophy now. It's a good point and appreciated.
 

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