10MW is equal to 10,000,000 watts or 13,404 HP
The Van de Graff generator was named after Van de Graff, who invented it. A Van de Graff generator is a device used to store an enormous amount of electric charge (either positive or negative) on a metallic sphere so that a very strong electric field can be produced. This strong electric field can be used to accelerate charged particles like protons, alpha particles etc. In the Van de Graff generator, charges from an electric battery are separated and stored on a metallic sphere which is mounted on an insulating pillar.
The amount of voltage of an electrical generator will determine the limit of the output of energy. If the voltage is too high, it can burst the pipes causing it to shut down.
is fully diamagnetise
The amount of current produced in the armature of a generator is primarily determined by the voltage induced in the armature winding, the resistance of the circuit, and the load connected to the generator. According to Ohm's Law, current (I) is equal to voltage (V) divided by resistance (R) (I = V/R). Additionally, factors such as the speed of rotation of the generator, the strength of the magnetic field, and the number of turns in the coil also influence the induced voltage and, consequently, the current generated.
I'm assuming you mean hyroelectric power, like from dams? Well, the dam holds back water into an artificial lake. It then allows a controlled amount of that water to fall through tubes past a turbine. The water spins the turbine and continues out the bottom of the dam. The turbine is connected to a generator. Using magnets (I'm not sure exactly how it works) the generator creates an electric current that it passes on to be used as electricity.
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.
To increase the amount of electric current produced by a generator, you can increase the rotational speed of the generator, increase the strength of the magnetic field within the generator, or increase the number of turns in the generator coils. These methods will result in a higher induced voltage and therefore a higher electric current output.
The amount of electricity going into a generator is variable and depends on the energy demand or load being drawn from the generator. Generators are typically rated in kilowatts (kW) or megawatts (MW) to indicate their capacity to produce electricity. The rate at which electricity is supplied to a generator is often measured in terms of power, which is the product of voltage and current.
electric generator is a device which can send amount of electricity to different places
63,000 Megawatts.
The amount of megawatts produced by a biomass facility each year can vary depending on the size and efficiency of the plant. A typical biomass power plant can generate anywhere from 20 to 300 megawatts annually.
Electric generators typically contain copper windings to conduct electricity. The percentage of copper in an electric generator can vary, but it can range from 20% to 30% of the total weight of the generator. Copper is favored for its high electrical conductivity and resistance to heat.
The Van de Graff generator was named after Van de Graff, who invented it. A Van de Graff generator is a device used to store an enormous amount of electric charge (either positive or negative) on a metallic sphere so that a very strong electric field can be produced. This strong electric field can be used to accelerate charged particles like protons, alpha particles etc. In the Van de Graff generator, charges from an electric battery are separated and stored on a metallic sphere which is mounted on an insulating pillar.
The wind produces energy by pushing against a fan. The fan operates a power making device ( generator, turbine) to produce the electricity. The amount of wind can make more or less power from the system.
The amount of energy a diesel generator set can produce depends on its size and capacity. Typically, diesel generator sets range from small, portable units generating a few kilowatts (kW) to large industrial generator sets producing several megawatts (MW) of electrical power. A small diesel generator set may produce between 5-20 kW, while larger industrial models can generate anywhere from 500 kW to several MW.
Biomass power plants can produce electricity ranging from a few megawatts to hundreds of megawatts, depending on the size and capacity of the facility. The amount of electricity generated can vary based on factors such as the type and amount of biomass used, the efficiency of the plant, and operational considerations.
haw the amount of output an economy produces can be determinis?