One Plus One Minus One

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  • Last Post 06 April 2023
cd_sharp posted this 28 October 2022

My friends,

Long time no talk, I had some rough time like everyone. This is an update of the OnePlusOneMinusOne setup, based on Non-Inductive Coil experiment video 7 :

I added an extra coil and I noticed if I short it, it increases the output voltage. There are lots of details that I modified from the POC setup Chris was using and I did them to solve specific issues.

 

After I'll make the most out of it I'll drop a full schema and details disclosure.

A detail: the blue current is peaking around 0.3 amps and the yellow current trace is using the same measurement scale.

I'm still active in experiments, but I lack the time to post. Hopefully, that will change!

Stay strong!

 

If you know how to build such a device and you're not sharing, you're a schmuck! - Graham Gunderson

Shelfordella posted this 06 January 2023

1+1+(-1)=1 is the conclusion of Chris' research into Floyd Sweet who in turn copied from Francis Gibson (without giving credit, plagiarized or copied and changed parts of the text):

https://electrogravityphysics.com/wp-content/uploads/3-Francis-Gibson-Motional-Electric-Field-original.pdf

Maybe this text will help you further.

"A little theory and calculation would have saved Edison 90 per cent of the labor." Nikola Tesla

cd_sharp posted this 06 January 2023

Correct, the start idea I've got from Chris as I declare at the beginning of the topic. I didn't think Floyd Sweet could have done that.

Thank you for the link!

Stay strong!

 

If you know how to build such a device and you're not sharing, you're a schmuck! - Graham Gunderson

Vidura posted this 07 January 2023

Let me ask the 100 points question! What happens when 2 opposite and equal magnetic fields are raising almost at the same time? I say the second one is phase shifting and I will add more turns to get there.

Hey CD ,when two oposite magnetic fields (waves of displacement of charges in the conductor) with equal intensity arise, they will propagate in oposite directions,it is also denominated antiphase. The result is a standing wave arising in the conductor.

 

Vidura

baerndorfer posted this 08 February 2023

i like to show you my observation when it comes to opposing coils. in the picture you can see 2 e-cores (3C95). the bottom one is my primary side - i do a lowside switching of a bifilar wound coil which is placed on the middle leg. the coil on top represents my secondary side where i wound the coil in opposing style. 

the switching frequency is about 90kHz. in this configuration i can have a load on the secondary side, but on the windings there will be no heat!

this is how it looks like,,,

you can see the load which is driven by 'cold windings' on the right side.

this is by the way my replication attempt of Andrey Melnichenkos field-copy-lesson.

if you like to see a video you can watch at https://odysee.com/@tankcircuit:a/VID_20230109_132111

regards!

cd_sharp posted this 08 February 2023

Awesome work, baerndorfer! Melnichenko is a legend. He has hundreds of videos, all worth watching. Thanks for sharing!

If you know how to build such a device and you're not sharing, you're a schmuck! - Graham Gunderson

Fighter posted this 08 February 2023

Hi Baerndorfer,

Very interesting experiment, thanks for sharing it !

With your permission I'll upload your video on our server so we can watch it here directly:

Don't hesitate to upload videos with your experiments, we prefer to have them here just in case the external video hosting sites become unavailable or the videos are deleted (as sometimes happens with videos showing this kind of experiments). And you'll have a backup of your videos here just in case.

The only restriction we have on videos uploading is their size should be under 300 MB to save the space on the server's SSD.

But if necessary we can manually upload bigger videos when we receive such requests from our team's members.

Regards,

Fighter

"If you want to find the secrets of the universe, think in terms of energy, frequency and vibration."
Nikola Tesla
Jagau posted this 09 February 2023

Hi Bearndorfer

This is an excellent presentation of the Melnichenko effect,
The principle of the separation of the fields is very present here
thank you for sharing


Jagau

cd_sharp posted this 26 February 2023

Hey, guys

A repost related to this series, essentially 1+1-1, all the 3 coils are conducting at the same time during Ton:

Each output coil has 31.233 m x 0.8 mm in diameter.

The primary coil has 5.89 m x 1.3 mm in diameter.

The effect shows up when L1 is 31 turns. Why 31 turns in this case?

Let's see what volume of copper we have in mm3:

VPOC= h x ∏ x r2 = 31233 x ∏ x 0.4 x 0.4 = 15699.41814 mm3

Vinput coil = h x ∏ x r2 = 5890 x ∏ x 0.65 x 0.65 = 7817.93185 mm3

This cannot be random, the 2 volumes are in a relationship of 1/2.

So, looks like if I'm using an "I" core, the input coil length and position matters. If I'm using a closed core, the copper volume matters. In both cases 1/2 is the important ratio.

Stay strong!

If you know how to build such a device and you're not sharing, you're a schmuck! - Graham Gunderson

Shadow_ posted this 26 February 2023

Hello

once on the website of the manufacturer of copper windings I found such a table

Regards Gandalf

“All we have to decide is what to do with the time that is given us.“

baerndorfer posted this 04 April 2023

Quoting:cd_sharp

This cannot be random, the 2 volumes are in a relationship of 1/2.

So, looks like if I'm using an "I" core, the input coil length and position matters. If I'm using a closed core, the copper volume matters. In both cases 1/2 is the important ratio.

Stay strong!

hi cd_sharp!

i read your statement on this subject weeks ago. today i rewound my secondary coils to meet the mass from primary. in my case the primary is 144cm long and has 26g. for secondary i use different type of wire and length but the copper mass is the same as primary. it turns out, that the current on secondary went up 30%!

in other words! it works for me on the e-cores very well.

thank you!

regards

B

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