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Voltage/Length -> reactive losses
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From: Malcolm Watts [SMTP:MALCOLM-at-directorate.wnp.ac.nz]
Sent: Sunday, February 01, 1998 4:44 PM
To: Tesla List
Subject: Re: Voltage/Length -> reactive losses
John,
I trust this enquiry was made tongue-in-cheek?
> From: John H. Couture [SMTP:couturejh-at-worldnet.att-dot-net]
> Sent: Friday, January 30, 1998 6:51 PM
> To: Tesla List
> Subject: Re: Voltage/Length -> reactive losses
>
> At 11:11 PM 1/29/98 -0600, you wrote:
> >
> >----------
> >From: Malcolm Watts [SMTP:MALCOLM-at-directorate.wnp.ac.nz]
> >Sent: Thursday, January 29, 1998 2:45 PM
> >To: Tesla List
> >Subject: Re: Voltage/Length -> reactive losses
> >
> >Hi Jim,
> >
> >> From: Jim Monte [SMTP:JDM95003-at-UCONNVM.UCONN.EDU]
> >> Sent: Wednesday, January 28, 1998 11:46 AM
> >> To: tesla-at-pupman-dot-com
> >> Subject: Re: Voltage/Length -> reactive losses
> >>
> >>
> >> >From: John H. Couture [SMTP:couturejh-at-worldnet.att-dot-net]
> >> >Sent: Wednesday, January 28, 1998 2:17 AM
> >> >To: Tesla List
> >> >Subject: Re: Voltage/Length (fwd)
> >> >
> >> < big snip >
> >> > Note that energy and power transfer between the pri and sec circuits is
> >> >always 100 percent (Skilling). This is easily understood. The transfer is by
> >> >induction and there are no losses in inductive reactance. Also, there are no
> >> >equations for losses in inductive or capacitive reactances. The coil
> >> >resistance losses and the capacitor dissipation losses are all Ohms law (not
> >> >reactive) losses.
> >>
> >> Unfortunately, any loss is still a loss and will reduce total energy
> >> available to do other things. Talking about "reactive losses",
> >> how about energy lost to stray coupling to other objects? For
> >> example, has anyone looked into losses due to coupling of the
> >> primary to a good earth ground as a function of primary distance
> >> above ground? Is this negligible?
> >
> >You are quite right. It is not negligible. You can easily measure a
> >change in Q if you move a good primary further away from the floor.
> >Your note on the losses is appreciated. I have tried to make the same
> >point on other occasions.
> >
> >Malcolm
> ><snip>
> --------------------------------------------------------
>
> Malcolm, All -
>
> Can you give us an example of how you calculate the reactive losses if for
> example the Q varies from 100 to 50?
>
> John Couture
As you well know, a pure reactance does not lose power. That is a far
cry from saying that "all power is transferred from primary to
secondary because the transfer is by reactive mechanisms"!!
Q - is there a current flowing in the primary wiring while the
magnetic field it is producing is changing?
A - Yes.
Q - So there is an I^2.R loss associated with the primary wiring
during this period?
A - Yes.
Q - is there an induced current in the secondary wiring during this
period?
A - Yes.
Q - is there an I^2.R loss associated with the secondary wiring
during this period?
A - Yes.
Q - is the primary coupled to nothing other than the secondary?
A - No.
Q - Can you prove this?
A - Yes. I can detect currents flowing in other conductors in
proximity to the system. I can also detect E-fields using a
meagre scope probe positioned many feet away. My neighbours don't
like it either.
Q - So power is being lost *during* the pri-sec transfer?
A - Yes.
Q - So does all primary power reach the secondary?
A - No.
QED.
Malcolm