Re: Current, Volts, Current Density

[Guest guest]

Hey bG,

thanks for the nice explanation! I guess it's possible to use cotton cloth also

on the GodRods or am I wrong? Reason I am asking is that I build mine using a

car washing sponge looking like a natural one but being definitely plastic kind

of material.

http://s1233.photobucket.com/albums/ff392/prato_braun/?action=view & current=GodRo\

d.jpg

Greets,

Christian

>

> Batteries show only " volts " . If you read fine print, they also show how many

" amps " they have inside. Amps is just like a truckload of beans. Big batteries

have big truckloads, small ones less beans.

>

> The volts is sort of like the height of the truck. Higher trucks spill their

beans with more force, lower trucks have less force on the falling beans...I

think you get this idea..volts is force, amps is number of beans. We want to

put a stream of beans into each germ in order to kill it.

>

> If you use a small pipe, you get less beans per minute, if a larger pipe, more

beans, assuming same trucks. Higher trucks will force more beans into the

pipe, and into you per minute. Lower trucks using same pipe will force less

beans into you per minute. A 1.5 volt battery is a very low truck and will

provide you with too few beans. A 6 volt battery is a " just right " truck, and

gives you a perfect number of beans usually. A 9 volt battery is like a truck

the height of a 2 story house, and will give you " too many " beans and could be

painful if used a long time.

>

> If you use a large sponge you can get more total beans, versus a smaller one,

since you are providing more pathways for the beans to go. Total beans is

" current " in electrical terms, and is just like the current of a river or

stream.

>

> But total current does not tell you how many beans each germ gets hit with.

Remember, we need a certain number of beans over a certain length of time in

order to kill the germ. And each germ has to get this amount at least, in order

to kill it.

>

> Well, over a larger area, you have more germs. So you do need more current in

that case. Over smaller areas you can use less total current. To further

illustrate this: assume you only have ONE germ. The size of sponge needed

could be reduced to a microscopic size. If you have millions of them, you just

add more microscopic sponges until you have a large, visible sponge.

>

> Ok, take a herpes sore. It is small but the virus is tough, can survive

outside the body, lives inside a nerve. We need a higher current for each

herpes virus. So we use a wire with a couple layers of cloth around it, which

will allow lots more current (or beans) into the small area than would a sponge.

Sponges are less conductive than thin layers of cotton cloth. So you just put

the " hotter " electrode on the herpes sore for a little time and allow the high

level of dense, packed in, beans (electrons) to hit those germs. Voila! no

more herpes AT THAT SPOT.

>

> With a larger infection, like MRSA outbreak you use the large sponge to cover

more of it. But you need less beans (electrons) to do the job as it is

bacterial and less power is needed to kill those. It is very fast, often one

hour application to kill all of it (!!)

>

> This little speech on beans and electricity is brought to you by the letters:

>

> bG

>

[Guest guest]

Yes, cloth or even wet paper towels would work. Avoid the bare metal on skin

....

bG

> >

> > Batteries show only " volts " . If you read fine print, they also show how

many " amps " they have inside. Amps is just like a truckload of beans. Big

batteries have big truckloads, small ones less beans.

> >

> > The volts is sort of like the height of the truck. Higher trucks spill

their beans with more force, lower trucks have less force on the falling

beans...I think you get this idea..volts is force, amps is number of beans. We

want to put a stream of beans into each germ in order to kill it.

> >

> > If you use a small pipe, you get less beans per minute, if a larger pipe,

more beans, assuming same trucks. Higher trucks will force more beans into the

pipe, and into you per minute. Lower trucks using same pipe will force less

beans into you per minute. A 1.5 volt battery is a very low truck and will

provide you with too few beans. A 6 volt battery is a " just right " truck, and

gives you a perfect number of beans usually. A 9 volt battery is like a truck

the height of a 2 story house, and will give you " too many " beans and could be

painful if used a long time.

> >

> > If you use a large sponge you can get more total beans, versus a smaller

one, since you are providing more pathways for the beans to go. Total beans is

" current " in electrical terms, and is just like the current of a river or

stream.

> >

> > But total current does not tell you how many beans each germ gets hit with.

Remember, we need a certain number of beans over a certain length of time in

order to kill the germ. And each germ has to get this amount at least, in order

to kill it.

> >

> > Well, over a larger area, you have more germs. So you do need more current

in that case. Over smaller areas you can use less total current. To further

illustrate this: assume you only have ONE germ. The size of sponge needed

could be reduced to a microscopic size. If you have millions of them, you just

add more microscopic sponges until you have a large, visible sponge.

> >

> > Ok, take a herpes sore. It is small but the virus is tough, can survive

outside the body, lives inside a nerve. We need a higher current for each

herpes virus. So we use a wire with a couple layers of cloth around it, which

will allow lots more current (or beans) into the small area than would a sponge.

Sponges are less conductive than thin layers of cotton cloth. So you just put

the " hotter " electrode on the herpes sore for a little time and allow the high

level of dense, packed in, beans (electrons) to hit those germs. Voila! no

more herpes AT THAT SPOT.

> >

> > With a larger infection, like MRSA outbreak you use the large sponge to

cover more of it. But you need less beans (electrons) to do the job as it is

bacterial and less power is needed to kill those. It is very fast, often one

hour application to kill all of it (!!)

> >

> > This little speech on beans and electricity is brought to you by the

letters:

> >

> > bG

> >

>

[Guest guest]

your sponges look like plastic ones. They will not conduct electricity.

Cellulose sponges will work but not plastic sponges. natural sponges might work

but probably not very well due to many holes and few fibers to hold water. it's

the water than conducts..

bG

> >

> > Batteries show only " volts " . If you read fine print, they also show how

many " amps " they have inside. Amps is just like a truckload of beans. Big

batteries have big truckloads, small ones less beans.

> >

> > The volts is sort of like the height of the truck. Higher trucks spill

their beans with more force, lower trucks have less force on the falling

beans...I think you get this idea..volts is force, amps is number of beans. We

want to put a stream of beans into each germ in order to kill it.

> >

> > If you use a small pipe, you get less beans per minute, if a larger pipe,

more beans, assuming same trucks. Higher trucks will force more beans into the

pipe, and into you per minute. Lower trucks using same pipe will force less

beans into you per minute. A 1.5 volt battery is a very low truck and will

provide you with too few beans. A 6 volt battery is a " just right " truck, and

gives you a perfect number of beans usually. A 9 volt battery is like a truck

the height of a 2 story house, and will give you " too many " beans and could be

painful if used a long time.

> >

> > If you use a large sponge you can get more total beans, versus a smaller

one, since you are providing more pathways for the beans to go. Total beans is

" current " in electrical terms, and is just like the current of a river or

stream.

> >

> > But total current does not tell you how many beans each germ gets hit with.

Remember, we need a certain number of beans over a certain length of time in

order to kill the germ. And each germ has to get this amount at least, in order

to kill it.

> >

> > Well, over a larger area, you have more germs. So you do need more current

in that case. Over smaller areas you can use less total current. To further

illustrate this: assume you only have ONE germ. The size of sponge needed

could be reduced to a microscopic size. If you have millions of them, you just

add more microscopic sponges until you have a large, visible sponge.

> >

> > Ok, take a herpes sore. It is small but the virus is tough, can survive

outside the body, lives inside a nerve. We need a higher current for each

herpes virus. So we use a wire with a couple layers of cloth around it, which

will allow lots more current (or beans) into the small area than would a sponge.

Sponges are less conductive than thin layers of cotton cloth. So you just put

the " hotter " electrode on the herpes sore for a little time and allow the high

level of dense, packed in, beans (electrons) to hit those germs. Voila! no

more herpes AT THAT SPOT.

> >

> > With a larger infection, like MRSA outbreak you use the large sponge to

cover more of it. But you need less beans (electrons) to do the job as it is

bacterial and less power is needed to kill those. It is very fast, often one

hour application to kill all of it (!!)

> >

> > This little speech on beans and electricity is brought to you by the

letters:

> >

> > bG

> >

>

[Guest guest]

Can you clarify why a plastic sponge soaked in water or in water/baking soda

won't conduct electricity? I figured as long as there was a water path between

the wire and the skin that the electrons would find their way.

Thanks for the entertaining and enlightening 'beans's explanation, btw!

Holly

--- baby_grand wrote:

> your sponges look like plastic ones. They will not conduct electricity.

Cellulose sponges will work but not plastic sponges. natural sponges might work

but probably not very well due to many holes and few fibers to hold water. it's

the water than conducts..

> bG

> > In , pratobraun

... I build mine using a car washing sponge looking like a natural one but being

definitely plastic kind of material.

> >

> >

http://s1233.photobucket.com/albums/ff392/prato_braun/?action=view & current=GodRo\

d.jpg

> > Christian

[Guest guest]

you're right, as long as path exists, but path will not be very good with a

plastic sponge. plastic fibers don't absorb water it runs off.

bG

> > your sponges look like plastic ones. They will not conduct electricity.

Cellulose sponges will work but not plastic sponges. natural sponges might work

but probably not very well due to many holes and few fibers to hold water. it's

the water than conducts..

> > bG

>

> > > In , pratobraun

> .. I build mine using a car washing sponge looking like a natural one but

being definitely plastic kind of material.

> > >

> > >

http://s1233.photobucket.com/albums/ff392/prato_braun/?action=view & current=GodRo\

d.jpg

> > > Christian

>

[Guest guest]

Thanks. I'll be taking a closer look at my sponges. I think they are all

cellulose, but just in case...

Holly

> > > your sponges look like plastic ones. They will not conduct electricity.

Cellulose sponges will work but not plastic sponges. natural sponges might work

but probably not very well due to many holes and few fibers to hold water. it's

the water than conducts..

> > > bG

> >

> > > > In , pratobraun

> > .. I build mine using a car washing sponge looking like a natural one but

being definitely plastic kind of material.

> > > >

> > > >

http://s1233.photobucket.com/albums/ff392/prato_braun/?action=view & current=GodRo\

d.jpg

> > > > Christian

> >

>

[Guest guest]

Well this understanding is a next step in mastery of the art, Holly, so you are

on the right path. I went along for years using it simply and got great

results, finally got curious and added the meter. Results have not changed, but

I have a greater certainty of what I am doing. That was only change after about

7 years, and it was not a concept change, it was functional, making dosage

exact. Yet, what other device of all of them has a " dosage meter " ? Not Beck's

not e's, not Rife's. Only mainstream medical devices seem to have meters

on them to set the current level. It is not crucial to get your results,

however, once you use it, you take the next step in directing the little

electrons, or beans if you will, to their targets. Think of a band leader and

the baton. He can work without it, but so nice with it! Such a simple little

thing.

bG

> > > > your sponges look like plastic ones. They will not conduct electricity.

Cellulose sponges will work but not plastic sponges. natural sponges might work

but probably not very well due to many holes and few fibers to hold water. it's

the water than conducts..

> > > > bG

> > >

> > > > > In , pratobraun

> > > .. I build mine using a car washing sponge looking like a natural one but

being definitely plastic kind of material.

> > > > >

> > > > >

http://s1233.photobucket.com/albums/ff392/prato_braun/?action=view & current=GodRo\

d.jpg

> > > > > Christian

> > >

> >

>