Re: [Vo]:Paper on the ball bearing motor via Google

On Aug 19, 2009, at 2:26 PM, Horace Heffner wrote: On Aug 19, 2009, at 1:19 PM, Harry Veeder wrote: www.physic.ut.ee/instituudid/efti/.../KuullaagerMootorAJP1978.pdf The entire paper can be downloaded by clicking the link as it appears in the search results. It contains lots of math.

Re: [Vo]:Paper on the ball bearing motor via Google

Horace Heffner wrote: Since all the balls rotate about the same axis, namely the x axis in his paper, aligned with the axis of the shaft, a net angular momentum is continually conferred upon the balls and then, through friction, to the motor mount. My theory does exactly the same thing,

Re: [Vo]:Paper on the ball bearing motor via Google

On Aug 20, 2009, at 7:33 AM, Stephen A. Lawrence wrote: Horace Heffner wrote: Since all the balls rotate about the same axis, namely the x axis in his paper, aligned with the axis of the shaft, a net angular momentum is continually conferred upon the balls and then, through friction, to

Re: [Vo]:Paper on the ball bearing motor via Google

Horace Heffner wrote: It's hard to see how AM balances; that's true. However, take a look at the attached jpeg, which is a much simpler system: It's a set of ball bearings in a race, just as you've been using. The balls are assumed to be NON-MAGNETIC. In fact, the balls may be assumed

Re: [Vo]:Paper on the ball bearing motor via Google

Has a suitably constructed (magnetic steel?) slip ring been shown not to produce the effect? On Fri, Aug 21, 2009 at 5:42 AM, Stephen A. Lawrence sa...@pobox.comwrote: Horace Heffner wrote: It's hard to see how AM balances; that's true. However, take a look at the attached jpeg,

Re: [Vo]:Hydrino represents Lorentz contraction in the opposite direction from event horizon

I do not want private email in regards to this topic. As noted on my web site, and periodically here, Please be advised that the content of any correspondence to me, Horace Heffner, is placed into public domain unless otherwise specified by prior written agreement. I can be contacted at:

Re: [Vo]:Paper on the ball bearing motor via Google

On Aug 20, 2009, at 9:42 AM, Stephen A. Lawrence wrote: Horace Heffner wrote: It's hard to see how AM balances; that's true. However, take a look at the attached jpeg, which is a much simpler system: It's a set of ball bearings in a race, just as you've been using. The balls are

Re: [Vo]:Paper on the ball bearing motor via Google

- Original Message - From: Horace Heffner hheff...@mtaonline.net Date: Thursday, August 20, 2009 5:03 am Subject: Re: [Vo]:Paper on the ball bearing motor via Google On Aug 19, 2009, at 2:26 PM, Horace Heffner wrote: On Aug 19, 2009, at 1:19 PM, Harry Veeder wrote:

Re: [Vo]:Paper on the ball bearing motor via Google

- Original Message - From: John Berry aethe...@gmail.com Date: Thursday, August 20, 2009 9:44 pm Subject: Re: [Vo]:Paper on the ball bearing motor via Google Has a suitably constructed (magnetic steel?) slip ring been shown not to produce the effect? Please describe this assembly a

Re: [Vo]:Paper on the ball bearing motor via Google

All I am trying to eastalish is if a light friction contact possibly used to conduct the current on to and off of the shaft has any chance of working. Slip rings are used in some motors and generators and often use some mercury to make contact. However it might be possible to rig up such a