A conductor is a material that allows electric current to flow through it. It typically has low resistance. A generator is a device that converts mechanical energy into electrical energy through electromagnetic induction. It usually consists of coils of wire rotating in a magnetic field.
A generator converts mechanical energy into electrical energy. By utilizing a magnet and a conductor to induce a flow of electrons, the mechanical energy is transformed into a usable electrical current.
A generator is a device that transforms mechanical energy into electrical energy. It uses the principle of electromagnetic induction to generate electricity when a conductor moves through a magnetic field.
Electricity from a simple generator is produced through the principle of electromagnetic induction. When a conductor, such as a wire coil, moves through a magnetic field, it generates an electric current. This current can then be harnessed to power electrical devices.
Working of A.C. GeneratorThe coil is rotated in anti-clock wide direction. In the first half rotation the arm AB is moving outward and CD is moving inward. So the e.m.f. is induced in the arm AB from A to B. And in the arm CD from C to D. After half rotation (in the second half). The arm CD is moving outward and AB is moving inward. In this time current is induced in arm CD from D to C. And in arm AB from B to A. In the second half rotation the current direction is changing so in this generator AC is produced.
Copper wire is better for an electromagnetic generator because copper has high electrical conductivity, which allows for efficient transmission of electricity. It also has good ductility, making it easy to shape and form into coils for the generator. Additionally, copper has good resistance to corrosion, ensuring long-term durability of the generator.
Conductor
pogi current flow in the armature conductor
Yes, except that the correct term is 'line' conductor, not a 'phase' conductor.
It is a conductor, it conducts the electric current generated to the load that is being supplied with power.
synchronous generator is similar to the principle of laws of electro magnetic induction that is "whenever the magnetic flux linking in a conductor that time emf is induced at the ends of the conductor "
The load conductor is connected to the load side of the generator breaker. Once the generator is up to speed the load breaker is closed and the voltage is then applied to the load.
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.
DC generator converts mechanical energy into electrical energy. when a conductor move in a megnetic field in such a way conductors cuts across a megnetic flux of lines and emf produces in a generator and it is defined by faradays law of electromegnetic induntion :emf causes current to flow if the conductor circuit is closed.
yes, because our hand is one of the type of conductor
Generator work on the principle of conversion of mechanical energy into electrical energy.EMF - Electro-Motive Force. When a conductor passes through a magnetic field, electrons are forced to move along the conductor thereby creating 'power' (as a simple explanation).
Converts mechanical energy into electricity. Movement of magnetic field across a conductor will cause electron flow. The windings of a generator are rotated within a magnetic field.
Generator principle: a current moving relative to a magnetic field will have a voltage induced into it.Motor principle: a current-carrying conductor within a magnetic field will experience a force that will try to push that conductor out of the field.