Hey there! Great question! So, let's dive into the magical world of generators and electricity.
Okay, imagine this: you've got this powerhouse of a machine called a generator. It's like the MVP of the electricity game. Now, to work its magic, a generator needs a couple of key ingredients: wires and motion. Yup, you heard me right! Wires are like the highways that carry the electricity, and motion is the spark that gets everything going. Picture this scenario from my own life: back in the day when I was a teenager, I used to help out at my uncle's farm. We had this old-school generator that we'd fire up every morning. Now, this beast wasn't powered by some fancy fuel; it ran on the good ol' sweat and muscle of our trusty farm animals. We'd hitch up the horses, and as they trotted along, they'd turn a wheel connected to the generator. That motion, combined with the wires inside, would churn out electricity to power up the whole farm. It was like witnessing pure magic!
So, long story short, a generator uses wires to conduct the electricity and motion to kick-start the whole process. It's a beautiful dance of science and engineering that keeps the lights on and the world humming along. Hope that clears things up for you!
It is called a hydro electric turbine generator.
When you run wires past a magnetic field you generate electrical current . The number and length's of wire wrapped around a shaft of a generator help determine the voltage moving voltage oscillating back and forth is called alternating current and the current flow or pulse is measured In hurts which is a function of how fast the field winding wires on a generator are turned and from what i understand our power companies generate 3 phase power and we only use one leg of that power for our homes electricity and the have to balance the other legs of those wires with other power needs and commercial power uses all 3 phases to there building's as opposed to our split leg 220 oar our single phase 120 voltage. wattage is volts times amps which is the measure of electricity
gasoline
In low voltage wires, the insulation factor of the coating determines the wire's voltage rating. A wire coating of cross linked poly vinyl is used as an insulation. High voltage transmission wires uses no coating on the wire
Electricity is the flow or potential of electrons , it is produced using 1) hydro electricity (water flows from dam to propel a water wheel connected to an electric motor(alternator) , 2) using burning coal in coal fired stations (uses burning coal to heat water in to steam ,which steam then turns a gas turbine that is connected to an electric generator/alternator 3) using windfarms (uses a giant aerodynamic propeller to turn an alternator(electric motor/generator) from the force of wind.
it uses electricity to create a magnet
A generator uses a coil of spinning wires in a magnetic field to convert mechanical energy into electrical energy. When the wires cut through the magnetic field lines, an electric current is induced in the wires, producing electricity. This process is based on electromagnetic induction.
It is called a hydro electric turbine generator.
Coal is burned to heat water, creating steam that turns a turbine. The turbine is connected to a generator, which uses the rotating motion to produce electricity through electromagnetic induction. The generated electricity is then transmitted through power lines for distribution.
A motor is an engine or a machine that uses gas, electric or other energy source for it to function and create motion. A generator is also an engine, but it converts an energy source into electricity.
An electrostatic generator uses mechanical energy to separate positive and negative charges, creating a build-up of static electricity. This build-up can be stored in a capacitor and then discharged as a spark or electromagnetic radiation. The generator typically involves friction between two materials to transfer electrons and create a potential difference.
A wind turbines uses the wind to power an electricity generator.
A wind turbines uses the wind to power an electricity generator.
A generator is a machine that uses a magnet to produce electricity. As the magnet rotates within coils of wire, it induces an electric current to flow, generating electrical power.
A wind turbine is a machine that uses fast moving air to turn its blades connected to a turbine. The turbine, in turn, spins a generator that produces electricity. This is a renewable energy source known as wind power.
Hydro- means water. A hydro-electric generator uses moving water from a river or dam to turn the generator and produce electricity.
A generator generates electricity. A simple generator consists of a magnetic field, relative motion between the conductor and magnetic field, and a conductor to carry electrical current to the load. Turbines drive the generators to create the necessary relative motion utilizing steam or water as the prime mover.