Saving Money Using Power Inverters With Your Magnetic Power System
You have done well so far in your quest to start generating electricity at home, so you can eliminate your electricity bill. You used a step-by-step guide to make your magnetic power generator and it is up running beautifully, turning out the volts effortlessly so you can save huge money on your electric utility bill. Your charge controllers and battery bank are all in place and ready to be activated. All that is needed now is a power inverter, a device that changes DC volts to AC so you can use it with your home appliances. Here I will discuss the ins and outs of power inverters so you can use to save a ton of money on your electric utility bill by generating electricity at home.
Power Inverters Change DC to AV
The power inverter is connected directly to your battery bank. It is here that you plug in devices to use the electricity generated by your magnetic power generator. AC is alternating current and is constantly changing polarity. This means it sends current one way through a circuit, then reverses and sends it another way very quickly, approximately 60 times per second. With DC current there is no switching going on, the current just flows continuously through the circuit. An inverter increases the DC voltage, and then changes it to alternating current before sending it out to power a device.
Three Main Types of Inverters
There are basically three types of inverters: square wave, modified square wave, and pure sine wave. The square wave inverters is a very rough output and is suitable for only the most basic type of applications like standard filament lighting. This type is very inexpensive but not usually suitable for home use. The modified square wave inverter is the most common and popular type of inverter and will work well with most home appliances. They are not suitable, however, where motor speed controls or timers are involved. The pure sine wave inverter produces the cleanest and best AC output but it is the most expensive. It can be used with the most sensitive type of appliances and if your budget can afford then it is well worth the expense.
Sizing the Inverter
The power inverters are sized by your battery bank voltage and your system load. A 12 volt battery bank is very common, but the 24 volt or even 48 volt is desirable because it reduces the overall system current. Power inverters are most commonly 12 volt, but if you can afford it the 24 volt is recommended. They come in all sizes from 10 watts to 5000 watts and more. You can stack two smaller inverters in parallel to double your power requirements. For example, two 1000 watt inverters can be wired in parallel to meet a 2000 watt load while keeping the system voltage the same. So for example, your inverter might be a 12 volt input rated for 1000 watts.
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is it possible to make a magnetic motor?
is it possible to make a magnetic motor that will spin on it’s own do to magnetism? if so, can you use a pulley on this motor to drive a generator? and if so, can you use the power of the generator to run a 800 hp electric motor that you would place in the engine compartment of your car if you take the original gas burning engine out?
A devise that can induce alternating voltage using armatures forced to spin in strong magnetic fields is the?
A devise that can induce alternating voltage using armatures forced to spin in strong magnetic fields is the
a. generator
b. electric motor
c. voltmeter
d. superconductor
Generators And Motor Questions, know them?
http://tinypic.com/view.php?pic=lw8bo&s=5
1. Which of the wires above could carry the greatest current?
A
B
C
2. A current that moves back and forth is defined as:
AD
AC
DC
DDT
3. A current of electricity that flows in only one direction is defined as:
AD
AC
DC
DDT
4. The amount of work an electrical current can do is measured in:
amps
ohms
watts
volts
5. The speed at which an electrical current can do work is measured in:
amps
ohms
watts
volts
6. Which of the following statements best explains why a motor spins?
magnetic fields generate electrical fields that make electrons move
magnetic fields generate proton movement
electric fields generate magnetic fields that spin the motor
electric fields generate electrons that create friction
7. Which of the following statements best explains why a generator produces electricity?
magnetic fields generate electrical fields that make electrons move
magnetic fields generate proton movement
electric fields generate magnetic fields that spin the motor
electric fields generate electrons that creates friction
8. The term DC refers to:
determined current
direct current
direct cycle
determined cycle
9. The term AC refers to:
alternating current
aligned cycle
alternating cycle
aligned current
10. Which statement is true about a generator?
it converts electrical energy into mechanical energy
it converts mechanical energy into magnetic energy
it converts mechanical energy into electrical energy
it converts electrical energy into mechanical energy
HELP!! Changing a magnetic field in the presence of a circuit results in which of the following?
A. An induced current in the circuit
B. Magnetizing the circuit
C. Added resistance in the circuit
D. Increasing the electrons in the circuit
2) When a magnetic field is changed either in direction or magnitude, a/an___________field is produced
a. magnetic
b. electric
c. gravitational
d. resistance
4) An electric motor and an electric generator are
a. Entirely different devices
b. Very similar devices
where too buy a magnetic motor electric generator?
a. Generator
1. C, the heaviest wire.
2. AC
3. DC
4. The closest one is watts, but that is power or work per unit time. Work is measured in Joules.
5. Watts
6. Currents generate magnetic fields that spin the motor.
7. magnetic fields generate electrical fields in moving conductors that make electrons move
8.direct current
9. alternating current
10. it converts mechanical energy into electrical energy
I suspect this is about the infamous “magnet motor” which is a big hoax.
There is no such thing, and it is impossible.
.
Yes, all electric motors do that, yes you could use a pulley to run a generator, yes, you could put an 800 hp electric motor in a extremely large car.
The problem is looking at the overall system.
Lets work backward at the parts of the system you propose, an 800 hp motor will dissipate 750 watts per hp, or 800 X 750 your motor would dissipate 600,000 watts. Even at 100% efficiency, that is a lot of power consumed. Your car would need to be about the size of a semi to hold it, or a train engine.
600Kwatts is enough to run 18 homes.
A magnetic motor, would take some input to overcome losses due to resistance in the system. By virtue of touching it or removing energy from the system, even in the process of reading the system you have to remove energy from it you increase loss in the system. Say, you are on a bike heading down hill, and pulling a trailer with the breaks locked, assuming it is not vertical, or greater than 45 degrees, you will have to peddle the bike to make up for the loss the trailer adds to your system. the generator is the same, you take away energy, it must be added.
Long story short, you would need 720,000 watts into the magnetic motor for it to spin driving a generator to run and 800 hp electric motor. This is without taking into account, the losses in the generator.
All this assumes you have an 80% efficient system, which is outstanding for this type of system, in reality, short of some Star Trek answer the system losses would be in the range of about 55 to 72% efficiency for a very well engineered system, which means you will have to lose the belts, to much energy loss, and it would take to many belts.