Source of Energy in a Field of Forces

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SUMMARY

The discussion centers on the conservation of energy within isolated systems, specifically regarding energy transfer in gravitational fields. It is established that energy is conserved as an object falls, converting potential energy into kinetic energy without continuous energy expenditure. The gravitational field itself is identified as the source of energy, possessing an energy density that decreases as energy is transferred to the falling object. This principle applies universally to fields of forces.

PREREQUISITES
  • Understanding of energy conservation principles
  • Familiarity with gravitational potential energy and kinetic energy concepts
  • Basic knowledge of fields in physics
  • Awareness of energy density in physical systems
NEXT STEPS
  • Study gravitational potential energy and its conversion to kinetic energy
  • Research energy density in gravitational fields
  • Explore the principles of energy conservation in isolated systems
  • Investigate the role of fields in energy transfer mechanisms
USEFUL FOR

Students of physics, educators, and anyone interested in understanding energy dynamics in gravitational fields and the principles of energy conservation.

Lukeblackhill
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good evening!

My question is the following: it is well stated that energy is conserved in any isolated system, and we can in most circumstances expand our system to a many-steps conversion of energy, but always conserved. The classic example could be the energy of the sun stored in form of chemical energy in the plants, which are eaten by a man that converts such an energy into motion when he pushes a ball, and so on.

But when we consider fields of forces, who is the source of the energy they give to things (like an object who gains energy from the gravitational field as it gets near to the earth)?

Thanks!
Cheers!
 
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Lukeblackhill said:
But when we consider fields of forces, who is the source of the energy they give to things (like an object who gains energy from the gravitational field as it gets near to the earth)?
The field itself. The field has an energy density which is reduced.
 
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Lukeblackhill said:
good evening!

My question is the following: it is well stated that energy is conserved in any isolated system, and we can in most circumstances expand our system to a many-steps conversion of energy, but always conserved. The classic example could be the energy of the sun stored in form of chemical energy in the plants, which are eaten by a man that converts such an energy into motion when he pushes a ball, and so on.

But when we consider fields of forces, who is the source of the energy they give to things (like an object who gains energy from the gravitational field as it gets near to the earth)?

Thanks!
Cheers!
An object in Earth's gravitational field has potential energy. When that object falls from a height to the ground, (some of) that potential energy is converted to kinetic energy.
 
Note also that energy is conserved. Drop a rock and it gains kinetic energy vs earth. pick it back up and you give it back as potential energy. And there is no continuous expenditure of energy involved.
 
Dale said:
The field itself. The field has an energy density which is reduced.

Could you explain that in more detail, please? I haven’t found a good material on the matter.
 

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