telsa smith
Newbie level 2
Hi everyone,
I have moved from "normal" electronic projects to a certain extent becouse what you build can be bought from the likes of china for a fraction of the price you can build.
One experiment turned up some interesting results while working on a project, i wound a insulated iron wire secondary OVER the top of a iron wire primary useing a closed magnetic core, a crt flyback core.
The results were interesting, both the voltage and current output were 3x the identical copper winding.
First of all the increased resistance of iron will make high currents pointless unless a heater is your aim. But the results are of interest, certainly for a lower power of around 500mA or less.
The physics very simplified are that you have increased the magnetic field/electric field? Think of the secondary as a magnetic core (like a iron transformer core), it will increase the induced voltage/current, you are wrapping iron around iron and both the core and the secondary will now increase output, with a iron wire primary and closed magnetic loop.
It also acts like a electro-magnet, becouse it is a iron wire transformer not a iron bar with wire wrapped around (a magnet) you have also induced usable voltage/current in the secondary. I have noticed that it forms a north/south pole at each output of the secondarys, this can be demonstrated, Connecting one secondary north pole to another secondary north pole will produce a resistance to current flow, unlike poles will not show a resistance, two secondarys are needed on the same transformer.
This effect creates a new component, in one direction it will show a resistance to current flow and reversed will show little resistance but no effect to voltage. With a perfectly wound primary and adjusted primary it will also cause the electrons to attract to the primary almost stopping current flow showing a potential difference across it`s output only.
The reduced current flow is becouse each iron atom in the secondary exposed to a electric field (the primary) will align electron orbits to form the north/south poles and north to north will repel. To understand this think of a copper winding around a iron bar, it makes a electromagnet with north and south poles it is the same as the iron wire secondary. The effect of stopping electon flow is when the primary and secondary electron poles are aligned perfectly so north to south face each other exactly. Note a magnetic field and electric field are different.
Iron wire is different from copper, each iron atom has unpaired electrons that shows a magnetic field, copper and all non magnetic materials have paired electrons that have a neutral magnetic field.
Also of interest is the secondary alignment of electrons by the primary field is connected with the physics of mutual induction, the angle of the primary to the secondary therefore relates to the voltage/current out.
What i am saying can be improved on but is correct.
Insulated iron wire is hard to get hold of except coated iron craft wire which is suitable for low(ish) voltage experiments.
I am crossing electronics with physics here so it may not compute with everyone.
Happy days and have fun. :grin:
I have moved from "normal" electronic projects to a certain extent becouse what you build can be bought from the likes of china for a fraction of the price you can build.
One experiment turned up some interesting results while working on a project, i wound a insulated iron wire secondary OVER the top of a iron wire primary useing a closed magnetic core, a crt flyback core.
The results were interesting, both the voltage and current output were 3x the identical copper winding.
First of all the increased resistance of iron will make high currents pointless unless a heater is your aim. But the results are of interest, certainly for a lower power of around 500mA or less.
The physics very simplified are that you have increased the magnetic field/electric field? Think of the secondary as a magnetic core (like a iron transformer core), it will increase the induced voltage/current, you are wrapping iron around iron and both the core and the secondary will now increase output, with a iron wire primary and closed magnetic loop.
It also acts like a electro-magnet, becouse it is a iron wire transformer not a iron bar with wire wrapped around (a magnet) you have also induced usable voltage/current in the secondary. I have noticed that it forms a north/south pole at each output of the secondarys, this can be demonstrated, Connecting one secondary north pole to another secondary north pole will produce a resistance to current flow, unlike poles will not show a resistance, two secondarys are needed on the same transformer.
This effect creates a new component, in one direction it will show a resistance to current flow and reversed will show little resistance but no effect to voltage. With a perfectly wound primary and adjusted primary it will also cause the electrons to attract to the primary almost stopping current flow showing a potential difference across it`s output only.
The reduced current flow is becouse each iron atom in the secondary exposed to a electric field (the primary) will align electron orbits to form the north/south poles and north to north will repel. To understand this think of a copper winding around a iron bar, it makes a electromagnet with north and south poles it is the same as the iron wire secondary. The effect of stopping electon flow is when the primary and secondary electron poles are aligned perfectly so north to south face each other exactly. Note a magnetic field and electric field are different.
Iron wire is different from copper, each iron atom has unpaired electrons that shows a magnetic field, copper and all non magnetic materials have paired electrons that have a neutral magnetic field.
Also of interest is the secondary alignment of electrons by the primary field is connected with the physics of mutual induction, the angle of the primary to the secondary therefore relates to the voltage/current out.
What i am saying can be improved on but is correct.
Insulated iron wire is hard to get hold of except coated iron craft wire which is suitable for low(ish) voltage experiments.
I am crossing electronics with physics here so it may not compute with everyone.
Happy days and have fun. :grin: