Partnered Output Coils - Free Energy

verpies · March 21, 2016, 07:46:32 AM

Quote from: EMJunkie on March 21, 2016, 12:49:27 AM
But any core material will have a distributed Flux of Density B, and it will be uniform - Yeah?

Yes, a flux density (B) can be calculated anytime a flux passes through an area, but usually this density is not uniform.
Take a look at the flux distribution in a common toroidal choke. The shaded circles represent the flux denities in a crossection of the toroidal core. Near the center of the core the flux density (B) is always higher (denoted by red and flux lines which are closer together).

EMJunkie · March 21, 2016, 04:10:07 PM

Quote from: verpies on March 21, 2016, 07:46:32 AM
Yes, a flux density (B) can be calculated anytime a flux passes through an area, but usually this density is not uniform.
Take a look at the flux distribution in a common toroidal choke. The shaded circles represent the flux denities in a crossection of the toroidal core. Near the center of the core the flux density (B) is always higher (denoted by red and flux lines which are closer together).

Thank you for sharing Verpies - I did not know this.

I always thought there was an even distribution, or relatively even anyway. Obviously not. I know Magnetic Flux will always take the shortest, easiest path. Reluctance.

Chris Sykes
hyiq.org

EMJunkie · March 21, 2016, 04:46:08 PM

Quote from: verpies on March 21, 2016, 07:46:32 AM
Yes, a flux density (B) can be calculated anytime a flux passes through an area, but usually this density is not uniform.
Take a look at the flux distribution in a common toroidal choke. The shaded circles represent the flux denities in a crossection of the toroidal core. Near the center of the core the flux density (B) is always higher (denoted by red and flux lines which are closer together).

Verpies,

Is the core modeled, an SI Laminate Core or solid Ferrite/Iron Powdered?

Chris Sykes
hyiq.org

P.S: What is the range of the Flux modeled?

verpies · March 21, 2016, 07:15:19 PM

Quote from: EMJunkie on March 21, 2016, 04:10:07 PM
I always thought there was an even distribution, or relatively even anyway. Obviously not. I know Magnetic Flux will always take the shortest, easiest path.

Yes, and the shortest path is at the inner diameter of the core.

Quote from: EMJunkie on March 21, 2016, 04:46:08 PM
Is the core modeled, an SI Laminate Core or solid Ferrite/Iron Powdered?

The latter.
The flux density in this model is below saturation ~0.5T

EMJunkie · March 22, 2016, 02:55:29 AM

Quote from: verpies on March 21, 2016, 07:15:19 PM
Yes, and the shortest path is at the inner diameter of the core.
The latter.
The flux density in this model is below saturation ~0.5T

Verpies, I have to thank you again for your presence and assistance here on this and other forums!!!

I consider you the smartest and most helpful person here!!!

Thank You!!!

I hope some of what I share is of some help to you in return and that's all I can do to return the favour.

Chris Sykes
hyiq.org