YouTube home Comedy Week on YouTube
Upload

Successful Replication of Meyer's Electrical Polarization Process

Alex Petty Alex Petty·17 videos
275
2,796
Like     Dislike 1

Sign in to YouTube

Sign in with your Google Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to like Alex Petty's video.

Sign in to YouTube

Sign in with your Google Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to dislike Alex Petty's video.

Sign in to YouTube

Sign in with your Google Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to add Alex Petty's video to your playlist.

Uploaded on Nov 30, 2011

A very simple circuit that will allow you to use a 9V battery (drawing almost zero current) to produce kV range polarizing electrostatic field pulses which can enable one to turn water into a clean hydrogen fuel source on demand.
For an overview of this technology see:
http://www.alexpetty.com/2010/09/17/w...
For much more on this topic see category link:
http://www.alexpetty.com/category/meyer/
See also my partner Russ Gries' site:
http://rwgresearch.com.

Please note that there is a typo on the table showing L1 characteristics (@ time 0:21). The DC Resistance for L1 is NOT 120,000 Ohms but rather 18.3 Ohms. Also, sorry for the small screen size, I shot the video with my camera on the wrong settings. For best viewing, watch using full screen mode @ 1080P resolution.

I've also included schematics and component characteristics from video here: http://www.sendspace.com/pro/dl/n6fhtd

Please include "Gries Petty Research" on any circuit drawings you develop from this information and attribution back to us. Your doing this will help us, help you, and we appreciate it!
Much more to come!
-Alex Petty

The interactive transcript could not be loaded.
Ratings have been disabled for this video.
Rating is available when the video has been rented.
This feature is not available right now. Please try again later.

Uploader Comments (Alex Petty)

  • Grezski

    Grezski 1 year ago

    Could you show what results you would get without the choke in parallel with the capacitor? I noticed that there's only one choke and not two like in Stan's in your schematic. But I reckon the one choke is simply there to restrict current and not to increase voltage potential due to the negative side of the cell wired directly to the IRFP.

    ·

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate Grezski's comment.

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate Grezski's comment.
  • Alex Petty

    Alex Petty 1 year ago

    @Grezski

    No one is looking at Meyer's EPP correctly. This circuit is arranged to open your eyes. L1 increases the voltage significantly, but only to the Vss side of L1!

    That's they key! It's the kV range BEMF pulse associated with L1 field collapse that yields the strong polarity field that effects the water molecule. Adding L2 enhances the effect further. I made this circuit available to teach everyone and give people a means to gain first-hand experience with the basics of this technology!

    ·

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate Alex Petty's comment.

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate Alex Petty's comment.
    in reply to Grezski (Show the comment)
  • DaveCBwfc

    DaveCBwfc 1 year ago

    Great work! Looks like we might be getting the same results at this time : )

    ·

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate DaveCBwfc's comment.

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate DaveCBwfc's comment.
  • Alex Petty

    Alex Petty 1 year ago

    I am glad I could help get you there! -Alex

    ·

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate Alex Petty's comment.

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate Alex Petty's comment.
    in reply to DaveCBwfc (Show the comment)

All Comments (13)

Sign in now to post a comment!
  • BudsMoKing

    BudsMoKing 1 year ago

    I just got done watching ALL of Russ' videos on his Stan Meyer replication (only took me maybe 5 days, i have no life) and was wondering what's the highest voltage either of you have worked with in regards to this work? Reason i ask is i believe that the higher the voltage the more 'free' energy potential (Tesla worked in millions of volts but highest extractions of 'radiant' energy occurred with the shortest pulse durations mico/nanoseconds). Do you think this could be relevant to this work?

    ·

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate BudsMoKing's comment.

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate BudsMoKing's comment.
  • Hhydrogen4Power

    Hhydrogen4Power 1 year ago

    @alex and russ. That is the best step charge parade i have seen. Great job.

    ·

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate Hhydrogen4Power's comment.

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate Hhydrogen4Power's comment.
  • flash001USA

    flash001USA 1 year ago

    Thanks for making your work open source. Keep up the good work!

    ·

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate flash001USA's comment.

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate flash001USA's comment.
  • oxiigen

    oxiigen 1 year ago

    i really wish you all the best guys!

    ·

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate oxiigen's comment.

    Sign in to YouTube

    Sign in with your YouTube Account (YouTube, Google+, Gmail, Orkut, Picasa, or Chrome) to rate oxiigen's comment.
  • Loading comment...
Loading...
Loading...
Working...
Sign in to add this to Watch Later