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by increasing the strngth of magnets used in it.
Your question lacks detail but, in general, increasing the load will increase the current.
You can use a transformer to increase the current. Note that this will also decrease the voltage. The total energy will not increase; it will decrease slightly, due to losses in the transformer.
An electric generator produces electrical energy. It converts mechanical energy to electrical energy by interacting with a magnetic field. The amount of electrical energy converted to useful work in a given time interval is the power output. If the generator is not connected to any load, then no work is done and there is no power.
candles can produce heat when it is burnt and when it is attached to something that can be heated or which can pass current ,like iron, the heat energy is partly converted into electricity .and when the burning candles are attached to the magnetized nails, electricity is produced and it passes though the wire and the bulb is lit...candles do not provide a large amount of power but anyway it produces electricity.................guys just try it and observe
by increasing the strngth of magnets used in it.
electric generator is a device which can send amount of electricity to different places
Hydroelectricity is electricity generated by hydropower. This is the production of power through the use of gravity or flow to spins water turbine and generator. The amount of electricity produced depends on many things. Some of the things that it depends on are the volume, the amount of pressure, and the difference in height between the reservoir, or source of water, and where it flows out. Hydroelectricity is electricity generated by hydropower. This is the production of power through the use of gravity or flow to spins water turbine and generator. The amount of electricity produced depends on many things. Some of the things that it depends on are the volume, the amount of pressure, and the difference in height between the reservoir, or source of water, and where it flows out.
Coal
The capacitors in a generator is to store energy produced. They are also needed when starting the generator as a considerable amount of extra power is needed at this time.
Yes
you really can't amplify electricity. You can amplify sound but that is different. You can change the voltage but the actual power will not change because as voltage is raised current is reduced. you can only increase power by increasing the mechanical input to a generator which will increase the electrical power as well. The conservation on energy says that power cannot just be created. It needs to come from some where either mechanical or thermal. Following the conservation of energy, you can convert kinetic energy into electric energy using a (relatively) small amount of electricity - this is what a synchronous generator does. A small amount of electricity is used to create a magnetic field; the stronger this field, the more energy can be "pushed out" of the generator; this energy must come from the kinetic energy stored in the spinning machine. In this way, a synchronous generator can be thought of as an electricity "amplifier".
It depends on how much you are willing to pay. For an economy generator, the cheapest generator will put out 2500 watts, while the most expensive generator will put out double that amount.
It's not the amount of wind, but the design of the generator, that decides what voltage is produced. The amount of wind will determine the power produced.
No, the Van de Graaff generator can produce a large amount of charge but does not hold the charge itself. The generator must be in motion in order to produce electricity. Once the motion stops, the charge is lost.
if a generator is overexcited it is producing a large amount of reactive power which requires an increase in the alternator emf. To produce this emf, the rotor currents must increase resulting in extreme ohmic rotor losses.
The generator induces a current in a wire using a magnet and a coil of wire. When the drive on a generator is rotated, a magnet inside the generator is spun around. This creates a moving magnetic field inside the generator. Located inside and around the generator is a coil of wires, which lead to a power storage device. As the magnetic field moves around, it induces a current in these wires by pushing the electrons inside the wires. The amount of electricity generated by a generator can be increased by increasing the amount of coils around the magnet, increasing the strength of the magnet, or by simply increasing the speed at which the drive is turned.