So in light of UFOs being demonstrated well enough to exist for me to accept they are real and they fly, I've become interested in figuring out how to get the energy needed to do what they do.
Doing this has led me down the rabbit hole of reading old patents and old theory to see if there is a branch of science that got neglected for some reason or another.
In the investigation, it leads me to electrostatic machines.
Now these are interesting.
They are typically made using 1 nF Leyden jars and they can make megavolts of electricity with the right set up.
Regardless, I'm watching this YouTuber turn his machine by hand and it starts throwing 6 inch sparks every 2 seconds.
I ran the numbers and that's 457 kilovolts to jump that far. At 1 nF that works out to 200 watt-seconds per spark.
So an average of 100 watts per second as an average.
He's spinning it with his hand, when he stops, it takes a good 15 seconds for friction to stop the wheels. I have serious doubts that something that could be spin with one extended finger uses 100 watts to run.
The motion of the wheels are really only being affected by friction. In span the same way in an early part of the assembly video when none of the electrical components were attached.
This is an electron pump in the same way as an air conditioner has a heat pump.
I think high voltage electrostatics is the key to efficiently separating charge so that you can do other work. There's basically almost nothing for me to research about these things. They aren't even conspiracy level, they're just assumed useless outside of being a demo of high voltage and abandonned as a technology.
The only place I can see where they use it is in high voltage experiments, everything always comes with the discalmer that the watts made by these machines are uselss because it's high voltage and low amperage, like step down transformers and power conditioners don't exist.
They are also super, rediculously dangerous with big capacitors and can kill you in an instant by striking you with lighting from a distance of inches!
Edit:
- Edited because I wrote uF instead of nF.
- Added link to video series on how to make this particlular type of electrostatic machine from beggining to end including a working demo. (I assume he makes them as demo units for universities) https://www.youtube.com/watch?v=3kMQJk8HZZg&t=2899s
- A comparison of how hard it is to make 700 watts of power through electromagnetics https://www.youtube.com/watch?v=S4O5voOCqAQ
- Calculations by me can be found in the comments bellow
Watts per second???
I'm not sure what you are calculating here. Watts are a unit of power, not energy. Are you trying to say joules per second? (i.e. 100 watts) Or are you trying to say watt-seconds, which is a unit of energy? (albeit a tiny one...1 3.6 millionth of a kWh, the units of your electrical bill)
If you could post your mathematical calculations it might make more sense, and allow us to offer feedback. I am having trouble following what you are trying to say with only the above information.
1 Farad = 1 amp seconds worth of power supplied at 1 volt
an amp-second is known as a coulomb
1 Farad = 1 coulomb stored at 1 volt
since 1 coulomb = 1 amp-second, a farad is 1 watt-second
Wattage is power, power and energy are synonyms in my vernacular; they aren't called energy plants, they're called power plants. Farad a description of ability to store power. Watts are typically given in watt-hours.
The capacitance of a capacitor is the amount of charge that can be stored per volt of applied voltage. So, if a capacitor is rated at 1 nanofarad (1 nF), then the amount of charge it can store at a given voltage can be calculated as follows:
Q = C * V
where Q is the charge stored on the capacitor in coulombs, C is the capacitance of the capacitor in farads, and V is the voltage across the capacitor in volts.
So, if a 1 nF capacitor is charged to 450 kilovolts, which is equal to 450,000 volts, the amount of charge stored on the capacitor can be calculated as:
Q = C * V = 1 * 10^-9 * 450,000 = 0.00045
So, the 1 nF capacitor will hold 0.00045 coulombs of charge at 450 kilovolts.
So that's 0.00045 amp seconds being pushed by 450 kilovolts.
0.00045 A/S * 450 KV = 202.500 KV-A/S (or watt seconds)
That's assuming a 1 nanofarad jar. Consider that a typical Leyden jar of one pint size has a capacitance of about 1 nF.
That would also explain why the sparks looked ~5 mm wide in the video.
https://www.youtube.com/watch?v=3kMQJk8HZZg&t=2899s
I think it's like a heat pump for electrons.
It's like how we can use a resistor wire to create heat and make 1 watt of heat for every 1 watt of electricity put in the wire. But if you use state changed instead, you can relocate and concentrate 3 watts of heat by spinning a compressor with 1 watt of power.
A typical generator uses the magnetic force to move electrons around. This is susceptible to back-emf and that back emf pushes back against you.
With this, the EMF you generate is really strong for the ammount of work put in, so with the right conditions, that EMF can push a lot of current and you don't have to fight against the back EMF.
Watch the video. The thing makes 450 KV sparks while slowing down to zero over 10-15 seconds.
It's not hard to turn this thing.
I'm in the process of making one right now actually, I want to see this for myself in my own home.
Look at how hard this olympic level athlete has to work in order to push 700 watts with electromagnetics. https://www.youtube.com/watch?v=S4O5voOCqAQ
compare that to the man in the video turning the wheel with one hand all relaxed.
I know that it's 450 kilovolts because the breakdown voltage of atmosphere at sea level is ~30 KV per cm of distance.
Even if you say that his capacitance is lower because he has two jars in series, because they are identical the capacitance is half, they are still 100 watt sparks in that case, which would work out to 50 watts per second generated on average, with one hand, relaxed, with very little resistance.