RF cooling -- so interesting!

[Green Xenon [Radium]]

Hi:

Just how can microwaves be used to cool something? Usually they heat
things up.

http://www.sciencedaily.com/releases/2007/09/070914105600.htm


Thanks,

Radium

 

[Eric Gisse]

On Jul 25, 10:25 pm, "Green Xenon [Radium]" <glucege...@gmail.com>
wrote:

Hi:

Just how can microwaves be used to cool something? Usually they heat
things up.

http://www.sciencedaily.com/releases/2007/09/070914105600.htm

Thanks,

Radium

Try reading the article.

 

[Weatherlawyer]

On Jul 26, 10:28 am, "Androcles" <Headmas...@Hogwarts.physics> wrote:

" <glucege...@gmail.com> wrote in messagenews:bfc0a663-6ce6-4329-99f4-4441e2c57bf8@q5g2000prf.googlegroups.com...
| Hi:
|
| Just how can microwaves be used to cool something? Usually they heat
| things up.
|
|http://www.sciencedaily.com/releases/2007/09/070914105600.htm
|
|
| Thanks,
|
| Radium

Just how can friction be used to stop a car? Usually it heats up the brakes.

Heat is the kinetic energy of motion of the molecules. If you use a
microwave to stop a molecule then you've "cooled" the molecule.

So hydraulics on a fridge is the next step in economic and engineering
progress? Should be useful when moving too.

What plagued the researchers at Los Alamos when working on the idea of
a super bomb is that the heat generated would build up enough to
ignite the atmosphere.

It turned out the energy was transformed to radiation that could
rapidly dissipate. Something of this ilk must be happening here. Just
as passing electricity through (I forget which salts) certain crystals
could drop temperature to near zero.

The crystals changed state or something. No doubt someone clever will
put in an appearance to reveal how its done, soon.

 

[Weatherlawyer]

On Jul 26, 11:08 am, "Androcles" <Headmas...@Hogwarts.physics> wrote:

I shall ignore you, too.
*plonk*

Sounds like someone has a full flush pending.

 

[Douglas Eagleson]

On Jul 25, 11:25 pm, "Green Xenon [Radium]" <glucege...@gmail.com>
wrote:

Hi:

Just how can microwaves be used to cool something? Usually they heat
things up.

http://www.sciencedaily.com/releases/2007/09/070914105600.htm

Thanks,

Radium

The temperature appears one-dimensional. A second axis as a cooler
then allows all axis to cool.

A RF signal as quanta is only a form of low energy light. Allowing
all coolers to function as a single applied axis of radiative energy
transfer.

A large mass as a turkey in the refridgerator can also be cooled. A
point as a center of irradiation allows all axis as a radiative
transfer.

RF
--------------> beam A turkey

A person simply needs to allow. In quantum theory a center smaller
than the RF wavelength must be created inside the turkey. A small
metal probe to make the center. A probe to cause inverted radiative
energy motion. Quantum theory is strange like this and a small probe
will cause a beam size to be predicted.


Small beam = axis size IN third energy transform.

size turkey/small probe -----proportional to beam diameter in
wavelength fraction/small mass

What you are doing is making the entire turkey now a small mass.

Hint: AN exact beam diameter will cool an exact sized turkey, NOT
HEAT IT.

So a variable beam size for the size of mass is a critical variable.

"A 0.6 Lamba beam size for a 1 lamda small chicken"

A beam must always be smaller than lamda!

Douglas Eagleson
eaglesondouglas123@yahoo.com

hint: a collapse as the size ratio causes a chickens interference. A
ceneter of the radiative interference pattern must be larger than the
chicken size! Denying a cooling effect as a whole until a sub-lamda
size of beam is encountered.

 

[Green Xenon [Radium]]

On Jul 26, 8:25 am, Douglas Eagleson <eaglesondoug...@yahoo.com>
wrote:

" <glucege...@gmail.com
wrote:

Hi:

Just how can microwaves be used to cool something? Usually they heat
things up.

http://www.sciencedaily.com/releases/2007/09/070914105600.htm

Thanks,

Radium

The temperature appears one-dimensional. A second axis as a cooler
then allows all axis to cool.

A RF signal as quanta is only a form of low energy light. Allowing
all coolers to function as a single applied axis of radiative energy
transfer.

A large mass as a turkey in the refridgerator can also be cooled. A
point as a center of irradiation allows all axis as a radiative
transfer.

RF
--------------> beam A turkey

A person simply needs to allow. In quantum theory a center smaller
than the RF wavelength must be created inside the turkey. A small
metal probe to make the center. A probe to cause inverted radiative
energy motion. Quantum theory is strange like this and a small probe
will cause a beam size to be predicted.

Small beam = axis size IN third energy transform.

size turkey/small probe -----proportional to beam diameter in
wavelength fraction/small mass

What you are doing is making the entire turkey now a small mass.

Hint: AN exact beam diameter will cool an exact sized turkey, NOT
HEAT IT.

So a variable beam size for the size of mass is a critical variable.

"A 0.6 Lamba beam size for a 1 lamda small chicken"

A beam must always be smaller than lamda!

Douglas Eagleson
eaglesondouglas...@yahoo.com

hint: a collapse as the size ratio causes a chickens interference. A
ceneter of the radiative interference pattern must be larger than the
chicken size! Denying a cooling effect as a whole until a sub-lamda
size of beam is encountered.

Hmm. I wonder if this microwave technology can be used for air-
conditioning. Cool your body the same way microwave heating would warm
it up. Is this possible?

Also, can long-wave radio waves [at or less than 150 kHz] be used for
cooling objects?

 

[jmorriss@idirect.com]

On Jul 26, 5:51 am, Weatherlawyer <Weatherlaw...@gmail.com> wrote:

On Jul 26, 10:28 am, "Androcles" <Headmas...@Hogwarts.physics> wrote:





"Green Xenon [Radium]" <glucege...@gmail.com> wrote in messagenews:bfc0a663-6ce6-4329-99f4-4441e2c57bf8@q5g2000prf.googlegroups.com...
| Hi:
|
| Just how can microwaves be used to cool something? Usually they heat
| things up.
|
|http://www.sciencedaily.com/releases/2007/09/070914105600.htm
|
|
| Thanks,
|
| Radium

Just how can friction be used to stop a car? Usually it heats up the brakes.

Heat is the kinetic energy of motion of the molecules. If you use a
microwave to stop a molecule then you've "cooled" the molecule.

So hydraulics on a fridge is the next step in economic and engineering
progress? Should be useful when moving too.

What plagued the researchers at Los Alamos when working on the idea of
a super bomb is that the heat generated would build up enough to
ignite the atmosphere.

The concern was not igniting the earth's atmosphere; this happens
constantly in lightning strokes and car engines. Hence the NO_x
pollution.

What was briefly a theoretical concern was the "igniting" of the
nitrogen and oxygen in a nuclear fusion reaction triggered by the
detonation of the atomic bomb.. Orders of magnitude more energetic...