Or what is induction...(for people to skip this post knowing it)
As many on this forum do stuff with coils, magnets, ionized gases, i thought it wise to explain what i know about coils and induction. Maybe if we understand some basic rules then we can save ourselves a bunch of aggravation and depression.
The word pickup coil seems to say that it picks up electricity without being of influence to the rest of the invention.
Well, everything that plays along has its influence on the rest.
To tap energy from a circuit its better to use a diode i think.
But like with the EPG, thats not possible, there one needs coils to tap the energy.
But the thing remains that any (connected) coil produces counterforce, its called induction.
This means that if i change the influences on the coil, it will resist that change.
I can put change on the coil by nearing it with a magnet. I can put change in the coil by driving electricity through it. Both actions result in a inductionforce by the coil itself.
It resists change, change in amount of magnetic fieldlines it captures, called amount of B-lines, or flux. And change in the direction of the flux.
As magnetisme is linked to electricity, the coil also resists change in amount of current and in direction of current.
So think about the next setup.
We have a coil connected to an ampmeter.
The coil is open on the top and bottom and is 1 meter of the ground. So as that we can drop a magnet through it.
If a pickupcoil could exist, then dropping a magnet through this coil would give a little current and then die down..
But that is not what happends. In reality the approach of the magnet, just b4 entering increases the captured flux by the coil. The coil reacts by counteracting this. It takes that change and diverts it into a counterchange, counterforce and counter electricity. Thats how it deals with it and with any tiny change, it like levels out within its own system or loop.
So the amp meter strikes either plus or minus at that point. And maximum when the magnet is inside the coil. Then the magnet leaves the coil and thus there is another change.. a flux depleting change.. and also that is counterforced by the coil. So when the magnet is leaving the coil, the amp meter strikes out to the other side then the first strike.
So "fine" you say, "double the amount of energy eey?"
"Put 2 diodes on it and we have our device"
"We make a chain of magnets, 2 wheels and drive the magnets through the pickupcoil, getting enough energy to drive a motor for the wheels!"
This idea should sound prudent and doable for a bunch of new energy builders.
And if it sounds good to you then you're maybe someone who isn't familiar with induction.
As the coil translates the changing flux into electricity..that electricity is called inductioncurrent and the coil uses it to make its own counter field of (magnetic) b-lines, counterforce to resist the lines of the magnet. To resist that they come in and lateron to resist that they leave.
The more speed the more current, the more resistance
As many on this forum do stuff with coils, magnets, ionized gases, i thought it wise to explain what i know about coils and induction. Maybe if we understand some basic rules then we can save ourselves a bunch of aggravation and depression.
The word pickup coil seems to say that it picks up electricity without being of influence to the rest of the invention.
Well, everything that plays along has its influence on the rest.
To tap energy from a circuit its better to use a diode i think.
But like with the EPG, thats not possible, there one needs coils to tap the energy.
But the thing remains that any (connected) coil produces counterforce, its called induction.
This means that if i change the influences on the coil, it will resist that change.
I can put change on the coil by nearing it with a magnet. I can put change in the coil by driving electricity through it. Both actions result in a inductionforce by the coil itself.
It resists change, change in amount of magnetic fieldlines it captures, called amount of B-lines, or flux. And change in the direction of the flux.
As magnetisme is linked to electricity, the coil also resists change in amount of current and in direction of current.
So think about the next setup.
We have a coil connected to an ampmeter.
The coil is open on the top and bottom and is 1 meter of the ground. So as that we can drop a magnet through it.
If a pickupcoil could exist, then dropping a magnet through this coil would give a little current and then die down..
But that is not what happends. In reality the approach of the magnet, just b4 entering increases the captured flux by the coil. The coil reacts by counteracting this. It takes that change and diverts it into a counterchange, counterforce and counter electricity. Thats how it deals with it and with any tiny change, it like levels out within its own system or loop.
So the amp meter strikes either plus or minus at that point. And maximum when the magnet is inside the coil. Then the magnet leaves the coil and thus there is another change.. a flux depleting change.. and also that is counterforced by the coil. So when the magnet is leaving the coil, the amp meter strikes out to the other side then the first strike.
So "fine" you say, "double the amount of energy eey?"
"Put 2 diodes on it and we have our device"
"We make a chain of magnets, 2 wheels and drive the magnets through the pickupcoil, getting enough energy to drive a motor for the wheels!"
This idea should sound prudent and doable for a bunch of new energy builders.
And if it sounds good to you then you're maybe someone who isn't familiar with induction.
As the coil translates the changing flux into electricity..that electricity is called inductioncurrent and the coil uses it to make its own counter field of (magnetic) b-lines, counterforce to resist the lines of the magnet. To resist that they come in and lateron to resist that they leave.
The more speed the more current, the more resistance