The magnetic effect of an electric current is put to use in devices such as electromagnets, electric motors, and generators. It allows for the conversion of electrical energy into mechanical energy and vice versa.
Both a generator and an electromagnet involve the use of coils of wire with an electric current flowing through them. In a generator, the motion of the coil creates an electric current, while in an electromagnet, the electric current produces a magnetic field.
When you turn on a computer or a stove or a washing machine you are turning on things that use electricity and it transfers from electric to light or heat
Electric current and water current are similar in that they both involve the flow of a substance - electrons in the case of electric current and water molecules in the case of water current. Both currents can be controlled and directed through the use of circuits or channels. Additionally, both currents can generate power and be harnessed for various applications.
Electric current is typically measured in amperes (A), which is the flow of electric charge through a specific point in a circuit over time. This measurement helps determine the amount of electricity being transferred and the rate at which it is flowing in a circuit.
A cordless toothbrush, a battery operated electric clock and an electric flash light could be in this group of house hold items.
Electric current is measured in amperes
An electric stove uses Alternating Current to operate.
Here are a few examples... - The electrical current is monitored. - The current of electricity is measured in volts. - The electrical current of telephone wiring is 82 volts. They may not be worded the same, but they have the same initial meaning.
The magnetic effect of an electric current is put to use in devices such as electromagnets, electric motors, and generators. It allows for the conversion of electrical energy into mechanical energy and vice versa.
Michael Faraday
because of the electric current use to produce sounds music
Use some equipment
Both a generator and an electromagnet involve the use of coils of wire with an electric current flowing through them. In a generator, the motion of the coil creates an electric current, while in an electromagnet, the electric current produces a magnetic field.
Electric current is typically carried by electrons moving through a conductor, such as a wire. It can be generated by batteries, power plants, or any other power source that can provide a voltage difference to drive the flow of electrons.
When you turn on a computer or a stove or a washing machine you are turning on things that use electricity and it transfers from electric to light or heat
Three ways that you can use fiber optics are: Cable Television, Computer Networking, Electronics Engineering