Here is an update to the fiber-optic solar batteries, the battery that you see in this video is going to show you proof of concept. The next update will be on how to collect energy from the battery correctly since the industrial people have been doing it incorrectly. Remember I'm the father of overunity V / 1 is the physics behind it and when we use this formula punched into this new solar project you get something extraordinary but let's not get ahead of herself see the update here
https://showmeyourproof.blogspot.com/2020/04/update-on-fiber-optic-solar-batteries.html
Some updates on the experiment with the fiber optics solar cells
After watching this video from YouTube ( https://youtu.be/UWIccIrZMWI )
I got inspired to update my on Project I've been experimenting with, one of the things I wanted to mentioned when I believe people are right at the same time they're wrong. That happens a lot here in the USA what I agreed with is if you add ordinary batteries to your solar system then his statement about them are totally correct. But that's the problem we always think of dying instead of building, if you make your own batteries then the price of storing energy goes down drastically here's a links:
1( https://youtu.be/zyGX-VyXXTQ
1.5 ( https://youtu.be/ot9gz-bAIss )
https://youtu.be/FTAtd6sXFkE
2 conductive ink( https://youtu.be/cHqrcsGys-0 )
) 3 what can you use to battery in( https://youtu.be/UWIccIrZMWI ) ideas to use conductive ink 4 ( https://youtu.be/r9tZ_2PVvwY )
Of course this is the most efficient ways to make your own batteries for your solar systems oh, yes it takes a long time but it is much better than the ones you buy out of the store. Of course on YouTube there are easier ways to make batteries but I find when I did this they don't last as long. The aluminum battery which is just simply taking crust charcoal croquettes You by at most grocery stores crushing them ups and putting them in aluminum here's a link to how to do that even though it is thousands of videos reference to this type of battery; https://youtu.be/Vy1oAeBxJ4A
So where are we at with this Tesla Park creation, not far again it's just in its infancy keeping the grass cut is more than just a chore it grows back so fast we call it supergrass.
After watching this video from YouTube ( https://youtu.be/UWIccIrZMWI )
I got inspired to update my on Project I've been experimenting with, one of the things I wanted to mentioned when I believe people are right at the same time they're wrong. That happens a lot here in the USA what I agreed with is if you add ordinary batteries to your solar system then his statement about them are totally correct. But that's the problem we always think of dying instead of building, if you make your own batteries then the price of storing energy goes down drastically here's a links:
1( https://youtu.be/zyGX-VyXXTQ
1.5 ( https://youtu.be/ot9gz-bAIss )
https://youtu.be/FTAtd6sXFkE
2 conductive ink( https://youtu.be/cHqrcsGys-0 )
) 3 what can you use to battery in( https://youtu.be/UWIccIrZMWI ) ideas to use conductive ink 4 ( https://youtu.be/r9tZ_2PVvwY )
Of course this is the most efficient ways to make your own batteries for your solar systems oh, yes it takes a long time but it is much better than the ones you buy out of the store. Of course on YouTube there are easier ways to make batteries but I find when I did this they don't last as long. The aluminum battery which is just simply taking crust charcoal croquettes You by at most grocery stores crushing them ups and putting them in aluminum here's a link to how to do that even though it is thousands of videos reference to this type of battery; https://youtu.be/Vy1oAeBxJ4A
So where are we at with this Tesla Park creation, not far again it's just in its infancy keeping the grass cut is more than just a chore it grows back so fast we call it supergrass.
But back to the fiber-optic batteries one of my first test that confirms that I can actually produce power from this idea by using string LED lighting which says on the package that they are 91% efficient oh, I wanted to put that to the test, those cheap solar lights they sell you was more than enough to make the voltage side of what I needed, even though the amps isn't very much it still takes a lot more solar to produce 1 amp then it does voltage. This causes the light's not to shine very brightly when you just use the voltage side even though they will light, so I sign using the batteries to run the efficient lights and using the solar to keep the battery charged successful. Of course if you want to know all the secrets on how to make this work in large scales you're probably going to have to call me 313-651-5349 but of course if you think you can figure it out with conventional science I'll tell you no no way. And the reason why Nikola Tesla had it right but of course it's a part of his story that most people miss so if you feel free to call my library the number is already given to you
Fiber optic Solar batteries created by Media Library Lloyd G Stovall we
If this information is correct and you apply it to the technology being mentioned in this picture, can you see the potential, ( link ) |
A solar panel will generate electricity when placed in the sun, Are new fiber optics solar batteries will not need the Sun,yet will still be connected from a cells to an electrical circuit, Called a charge controller. How many amps of electricity will it produce, depends on the Fiber optics solar batteries what size solar cell are because the fiber optics produce its own light, so they are constant when it comes to light. the characteristics of the circuit to which the panel is connected, how intelligent is your circuit or charge controller to maximize the voltage given, see number one in related articles. Calculate the amps produced by the cells were measurements using a digital multimeter.
1
Look at the back of the solar panel or consult the installation manual and find the maximum rated power of the panel in watts. Look also for the maximum power voltage, Vmp, which is in volts.
2
Calculate the current produced by the solar panel when it is generating its maximum power. Calculate the current in amps by dividing power in watts by the voltage in volts. For example, if the solar panel is rated at 175 watts and the maximum power voltage, Vmp, is given as 23.6 volts, then calculate the current as 175 watts divided by 23.6 volts, which is equal to 7.42 amps. This is current produced by the solar panel at full power.
3
Take a digital multimeter and switch the dial to direct-current volts. With the solar panel connected to an electrical circuit, measure the voltage between the positive and negative terminals of the solar panel. Make a note of this value. Disconnect the solar panel from the circuit and switch the digital multimeter to measuring resistance. Measure the resistance of the electrical circuit in ohms and write down this value. Reconnect the solar panel to the circuit.
4
Calculate the current in amps flowing through the circuit by dividing the voltage by the resistance. This relationship is Ohm's law (see References 1). For example, if you measured the voltage as 22.1 volts and the resistance of the circuit as 3.2 ohms, divide 22.1 by 3.2 ohms to get 6.91 amps. This is the actual current produced by the solar panel, given the amount of sunshine on the panel and the characteristics of the circuit.
Things You Will Need
- Digital multimeter
Warning
- Measuring the voltage of a single solar panel is not dangerous. If you have several panels connected together, however, consult a qualified technician to assist you in this procedure.
There are a few things you should know, 1 why did we put these solar in a Chase. Ass doesn't it diminish the light for the solar, again the project is called fiber optics solar, that means that these solar produced their own light, of course we can't talk about how they do just that until after the patent has been received. I will completely divulge the secret then, but it's a few things we can talk about and show a few videos so maybe you very intelligent people will catch on.
The size, and the area in which your solar's cover.
This was the first thing we wanted to correct (space issues)
In the three fiber optics solar batteries created in the upper left corner, consist of 18 sollars all coming from the same Source displayed next to them which are solar lights. As you can see 10 of those same solar lights compared to 18 in the battery experiment, space issues has been solved.
the next issue we wanted to solve was maintenance, putting solar on the roof and clean them, or having them out in the weather does things like this.
I was surfing net and fortunately came across this site and found very interesting stuff here. Its really fun to read. I enjoyed a lot. Thanks for sharing this wonderful information. Solceller uden udbetaling
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ReplyDeleteNice blog post for Solar Batteries..
Thank you so much for this valuable post.
We always leave a contact number to our library 313-651-5349 if you missed it at the top of the blog
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