Negative energy and opposite self-induction device

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SUMMARY

The discussion centers on a proposed method for achieving opposite self-induction in electrical devices, as outlined on a referenced webpage. The concept suggests that introducing a flow or movement into a device could enhance rather than oppose that flow, challenging conventional understanding of back-emf in motors and generators. Participants express skepticism regarding the feasibility of this idea, particularly its implications for the conservation of energy and the relativity of motion. The conversation highlights fundamental principles of electromagnetism and the relativity of motion.

PREREQUISITES
  • Understanding of electromagnetic induction principles
  • Familiarity with back-emf in motors and generators
  • Knowledge of the relationship between moving charges and magnetic fields
  • Basic grasp of the theory of relativity in physics
NEXT STEPS
  • Research the principles of electromagnetic induction and back-emf in detail
  • Explore the implications of relativity on electromagnetic interactions
  • Investigate alternative theories of energy generation and conservation
  • Examine experimental setups for testing unconventional electromagnetic concepts
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Physicists, electrical engineers, and anyone interested in advanced concepts of electromagnetism and energy conservation principles.

cala
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Hello.

Take a look to this page:

www.geocities.com/nayado/

You all know that in a normal induction process, a back-emf is generated that tends to oppose current flow. All our motors, generators and devices work like this: You introduce a flow or movement, and the device operation will tend to avoid that flow or movement.

In this page, a method to obtain the opposite thing is proposed: You introduce a flow or movement, and the device operation will tend to increase that flow or movement.

We think that a moving electron generates a B field, and a stationary one does not. But imagine one moving electron near one stationary. The moving one will generate a B field into the stationary... But will not the stationary one appear to be moving to the moving electron? Then, the static electron will appear to be moving, so the moving electron should feel a B field from this electron.

What do you think about this thing?
 
Engineering news on Phys.org
It sounds like it would violate conservation of energy. That is a forbidden topic here on PF.

It also sounds faulty. All motion is relative. There is no absolute that one is still and the other moving.
 

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