How To Build A Magnetic Generator - Permanent Magnetic Generator For Your Home
Author: Watson Frup N
Do you want to get free energy for your home, do you want to save the environment and save money at the same time? If you answered yes to any of the questions about, then you would probably want to know how to build a magnetic generator, since this is a perfect solution to getting free energy to power your home or office.
Though learning how to build a magnetic generator is not an easy thing to do, the Magniwork guide has made this task become really easy. With detailed illustration and clear pictures, you will be able to easily construct your own permanent magnetic generator for your home in a very short amount of time. The Magniwork guide has helped thousands of people to construct their own magnetic generators, form which they are now getting free electricity.
If you want to save the environment and save money at the same time then using the Magniwork generator guide to build your own magnetic generator will be the best thing to do. However, you don't have to take my word for it!
Click on the following link to read what other people have to say about this free energy generator system: Review of The Magniwork Generator Guide, for Building a Magnetic Generator.
Article Source: http://www.articlesbase.com/diy-articles/how-to-build-a-magnetic-generator-permanent-magnetic-generator-for-your-home-1852096.html
About the Author
Related Articles: Magniwork , Magniwork Generator Review , Magniwork
what is the magnetic field strength of the permanent magnets in a 1MW generator rotor?
if their are no permanent magnets generators of that size, then electromagnet??
what about 100kw generator magnetic field strength??
Electricity Question.?
I’m trying to find out how many turns of a wire denote the electrical output of a generator. Also, to have 60Hz, I’m assuming that the field needs to be broken 60 times per second? So, a larger number of magnets passing the coil would reduce the speed needed to generate 60 Hz?
I’ve looked around the internet before asking this question, but I don’t think I’m wording properly what it is I want to know.
I’m sure there is a formula somewhere that denotes the turns of wire for what I want. I have a pretty good understanding of electricity to begin with, for a laymen. I understand HOW to make things, like a Tesla coil, but I can’t predict the resulting voltage, because I can’t find the equations anywhere!
I am making a magnetic generator, (permanent magnets). But, I don’t want it to be useless when I’m done, and be nothing more than a toy with outputs that have no real use!
So, haw many turns to get 120 volts? Can I use multiple coils? If so, how would I wire them together to stay at 120? Would I need to consider the 60Hz as being added together for ALL coils? Or would that stay at 60 Hz because that is the frequency of each of the coils?
As you can see, I need a little help with this. I love to read and learn new things, so if you have time to just post a link I could use, that would be great!
Thanks!
Sam: I’m still reading from the links you have provided. I’ve learned a lot already!
Coils can be either placed on the rotor or the stator, as I suspected. The result is the same. An EMF is the result. Which when placed under load will generate a current. Rotor and stator are simply terms to denote which piece is stationary and which is rotating.
I’m still working on the 60Hz. If I’m correct, the magnetic field must go through a complete cycle of +/- in one second, to create 1 Hz. So, If I used 10 magnets, each showing a reversed pole from the one before it…1 RPM in one second, should equal 5 Hz?
I’m still working from your first link, as it has MANY links inside it to follow. I’m sure I will find everything I need now. My biggest problem was not knowing the terminology for what I was looking for. You have certainly fixed that problem for me with the links provided.
Thank you very much for your help!
EDIT: RPM should read revolution.
I have a BS degree in Electrical Engineering but field and optics is not my focus area so I may not be able to answer you fully.
You do have very good basic knowledge to start off with. But in my understanding, in order to get a 60 Hz frequency, the coil has to make 60 revolutions per section. I cannot think of any other way to get the same frequency without the coil making fewer or more than 60 revolutions/sec. And I think the turns of coils do not matter in the generator.
If you want to learn about the basic formulae in this problem, I suggest that you start looking at “Faraday’s Law” or “Biot-Savart’s Law.” (Easily accessible in wikipedia).
Faraday’s Law dictates that in a closed loop, current is induced as the total magnetic field passing through it changes. The amount of voltage induced in the loop can be also calculated using Faraday’s law. So please refer to “Faraday’s Law” in wikipedia.
Also, since you are building an AC generator, there is another important concept about AC voltage. AC voltages typically switch signs (+) and (-). So the voltage you are looking at is the RMS value.
Here are a few websites that could be useful in your project:
http://en.wikipedia.org/wiki/Faradays_law
http://hyperphysics.phy-astr.gsu.edu/hbase/magnetic/motorac.html
This a competency question there is no particular car involved?
A technician suspects that a faulty CMP(camshaft position sensor) is the cause of a drivability complaint. In order to test the sensor, he must first know what type it is. Since the sensor is equipped with a 3-wire connector, the sensor is:
a) a Hall-Effect type
b) A magnetic reluctance type
c) Creates a voltage
d) A permanent magnet generator
How many wires in each?!
hall affect= 2
VRS = 3 wires
photooptical=2
it really depends on what vehicle you are refering to. Some magnetic pick ups use 3 wire. Most likely you are talking about a hall effect sensor.
Why won’t a permanent Magnet Motor work?
I was talking with a friend of mine the other day about being able to replace electro magnets in a motor with permanent magnets, with the intent of driving a generator to produce electricity. He was quick to say that it was impossible (He’s an engineer) to produce over parity. I asked why and he answered because it defies physics. I took a pencil and four magnet’s off of his desk taped 3 magnets to the pencil and set it on his tape dispenser and held the fourth magnet to it and the pencil began to spin. I asked him “if I can do this in 3 minutes with stuff off of your desk, do you really think people with the intelligence and resources of say M.I.T. couldn’t produce a spinning shaft with enough magnetic force to turn a generator shaft?” Also I saw a demonstration of the Meissner effect that looks very close to what I am talking about on a smaller scale. And here is a link to a patented permanent Magnet motor I found. So what do you think?
http://www.rexresearch.com/johnson/1johnson.htm
Old Prof- You are correct I did move my hand, should have included that , however it seems like multiple magnets in the correct array around the shaft would produce the same effect. Thanks for your input.
If you are talking about a motor with nothing but permanent magnets, your friend the engineer is correct. It can’t be done. And I doubt very much your recount of the pencil motor experiment.
Once one of the three magnets on the pencil aligned with the fourth in your hand, it would stay there. There is nothing to move the next magnet on the pencil to align with the stator magnet and concurrently pull the aligned pencil, rotor magnet off the fourth stator magnet in your hand.
Unless, of course, you moved your hand and the stator magnet. That would move the rotor, but only so far as you moved the stator magnet. Perhaps a fairer experiment, to preclude moving the stator magnet, is to find a way to fix it above the pencil without holding it in your hand.
Electric motors work because they provide a change in electro-magnetic flux. In a simple DC motor, for example, the rotor starts to align with the stator coils on either side.
Then, just as the rotor is aligned, so it would stay there without a change in polarity, the stator changes polarity so the rotor passes on through and is propelled to align in the opposite direction. That cycle continues with each half rotation of the rotor; and that’s what propels it and makes it a motor.
So, what I think, you need to go back to the drawing board.
magnetic! HELP!!!10pt!!!!!4.4?
PLEASE HELP!!!! THANKS!!!
1.List three ways in which the amount of electricity from an electric generator can be increased.
2.(a)What is the meaning of DC?
(b)List three devices that use DC.
3.(a)What is the meaning of AC?
(b)Name two sources of AC.
4.(a)Electricity is supplied to the armature of a generator through brushes and rings.
Explain why continuous wires cannot be used for this purpose.
(b)All large generators like those used by B.C. Hydro use electromagnets, Whereas bicycle generators use permanent magnets. See if you can think of reason for this difference.
5.If you had a generator supplying electricity to some appliances connected in parallel, would you expect any change in the generator as more appliances are turned on?
HELP!!!!!THANKS ALOT!!!!!>”<
I would not do all the work for you. You would never learn anything.
Try these websites
http://www.eia.doe.gov/kids/energyfacts/sources/electricity.html