when current is passing through the stator windings of motor magnetic field is develop ,due to it emf is produced inside the stator windings,that emf is further cuts the emf across stator due to which current flowing inside the rotor.
An electric motor has a stator and a rotor. The stator does not move. The rotor rotates inside the stator.
Stator is part of rotating mechanical device thats sorrounds the rotor to rotate it through the induced magnetic field while the Rotor, is the one who is rotated by produced magnetic field in the stator,.
if the relative speed of magnetic flux of stator and rotor becomes zero there will be no back emf and eventually the rotor gets zero speed
In open circuit, find the ratio of voltages across the slip rings in rotor side to the applied stator voltage.
Main parts such as rotor and stator.
In an electric motor, energy is transferred from the stator to the rotor through the interaction of magnetic fields. When an electric current flows through the stator windings, it generates a rotating magnetic field. This rotating field induces a current in the rotor, creating a magnetic force that causes the rotor to turn and transfer mechanical energy.
Energy is transferred by a generator through electromagnetic induction. As the rotor inside the generator spins, it creates a changing magnetic field that induces a current in the wire loops of the stator. This current is the electrical energy that is then transferred out of the generator for use.
An electric motor has a stator and a rotor. The stator does not move. The rotor rotates inside the stator.
Degree of reaction is a parameter used in turbine design to measure the flow distribution between the stator and rotor components. It is the ratio of the change in static pressure in the rotor to the change in kinetic energy in the rotor. A lower degree of reaction indicates more energy is transferred within the rotor, while a higher degree of reaction indicates more energy is transferred in the stator.
The slip vary with load is a AC electric motor which the electric current in the rotor needed to make torque that is induced by electromagnetic induction. It does not repair mechanical commutation parts the energy and transferred from stator to rotor.
If we are talking about a dynamo or an alternator, a stator has a rotor inside it. When the rotor turns, electricity is generated.
In the operation of a standard generator, the exciter rotor and stator provide DC-type energy to an AC-type supply. This allows the exciter to maintain a constant DC source.
AC motor has two main winding components - stator and a rotor. Stator winding is stationary where as rotor winding is on rotating part.
rotor slot more. it is to get a large rotor inductance value of inductance the stator windings
A two stage impulse contains 2 stages. One stage is a stator and rotor, therefore a 2 stage impulse turbine contains a stator-rotor-stator-rotor.
stator and rotor.
rotor