When motor is started it has low speed which does not produce back emf hence very large current is drawn by the motor which may destroy the coil inside.small motors gain speed very quickly they produce back emf very fast at start hence they do not require starter.
emf in volts
if an emf is induced in a coil due to the current flowing through itself is called SELF INDUCTANCE. on the other hand if an emf is induced on another coil due to the current flowing through the previous coil then it is called MUTUAL INDUCTANCE. suppose there are two coils A and B a current is flowing through A. now if the flux produced due to this current induce an emf on the same coil A, then it is SELF INDUCTANCE, and if it produce emf on B, then it is MUTUAL INDUCTANCE due to coil A.
yes indused emf is also called motional emf. If an open coil is subjected to a variable magnetic field, at the ends of the coil a potential difference is induced which is called induced emf. If a coil is connected to an emf source and switched on, the rising current will produced an variable magnetic field which in turn produces an emf. It is called back emf.
EMF is greater
yes it can be produced
armature, stator, rotor
It is the souce that produce the emf force that drive the electron in a metal material
A wire moving in a magnetic field will automatically produce an emf (a voltage).
ANSWER yes. When it moves it induces EMF in metals, laser beams, gravity field and other magnetic fields. Move as in expand and contract or as in moving the EMF generator.
magnet produce emf it maintain the resistance as same
Well, it's not actually the tower that produces the EMF. It's the RF energy radiated by the antennas that are mounted on the tower. That energy produces EMF in receiving antennas, which alternates (wiggles) at the frequency of the transmitted signal. All of this is very lucky. Without that little EMF induced in the receiving antenna, there would be no such thing as radio communication.
if a generator is overexcited it is producing a large amount of reactive power which requires an increase in the alternator emf. To produce this emf, the rotor currents must increase resulting in extreme ohmic rotor losses.
When motor is started it has low speed which does not produce back emf hence very large current is drawn by the motor which may destroy the coil inside.small motors gain speed very quickly they produce back emf very fast at start hence they do not require starter.
emf in volts
Bcoz the emf which is to be measured is less than emf of driving cell....
i dont even know there four words