Magnetic "Free Energy" designs released - finally!

[mikestocks2006]

To researchers:

Some very exciting and encouraging magnetic viscosity tests were just posted at my forum. I just completed another run of such tests tonight. The amount of viscosity measured on a rod using a specific method was amazingly high.

Regards,
PL

Hi Paul,
May I suggest the following test setup to test for Magnetic Viscosity, or also known as Magnetic Lag:
Use of an air core coil, (known # , of turns and diameter) at the edge of the ferrite rod (or any material to be tested). Apply known current and estimate/measure gauss level at the coil edge. Measure time to steady state current. At the end of that time there is max flux available at that one end of the ferrite rod.
Use of a sensitive fast response gauss sensor. Measure/calibrate for transients etc.
Have the gauss meter sensor at the other end of the rod. Measure how long it takes for the sensor to read any flux, and how high it gets and how long it takes to get there.
So now you have the time of magnetic front travel, distance traveled and level reached on other side.
If the sensor is not fast enough, (response time is greater than travel time of magnetic front through the rod) a reed switch may more accurately accomplish some of the needed results. Time delay, but not flux level.

Thanks
Mike

[PaulLowrance]

Thanks for the info Mike. Maybe someone could post the part number of a hall chip or such that has a response time of 1us or less. I haven't seen any of such chips fast enough at digikey.com.

As an alternative you could use a coil, just as the first coil. So you would have a coil at each end of the rod.

That being said, that's a different type of magnetic viscosity. It's how fast the magnetic wave travels. That's also an important type of viscosity, which is why in my "free energy" designs a *long* rod is recommended. Although, if it's too long then there might be too much coercivity, depending on the material.

The type of magnetic viscosity I've been measuring is how long it takes the magnetic material to decay with no applied current. IOW, you magnetize the core with a coil (and current), then quickly remove the current. Of course, one *must* use a scope to see how fast the coils current turns off-- just make sure the coils current turns off a lot faster than the magnetic viscosity.

Regards,
PL

[PaulLowrance]

A lot of updates to my free energy magnetic designs. Here are two circuits for the solid-state design. When combined, it forms the "Grand Smoking Gun" circuit; i.e., the completed circuit when connected to the magnetic cores as shown in "Free Energy design #3" will be self-running -->

http://greenselfreliantenergy.com/forum/index.php?topic=201.msg799#msg799

Also, lots of new magnetic viscosity measurements.

Note, updates are only periodically posted here.

PL