by using measuring meter
It does have armature resistance.
An 'armature winding' is the rotor winding, and the 'field winding' is the stator winding.
A motor with large windings will have greater shunt resistance than armature resistance due to the sheer amount of copper wire it must travel through. The gauge of the wire also plays a part in this process.
Right now a DC engine is begun the armature is stationary and there is no counter EMF being produced. The main part to cutoff beginning current is the armature resistance, which, in most DC engines is a low esteem.
There is not enough information to answer the question. A DC generator is never described in kVA because DC generators are specified in terms of kilowatts.
It does have armature resistance.
why armature resistance is very low as compare to field resistance in dc motor
we can measure the resistance of the motor by using voltmeter ammeter method of by directly using a multimeter across the armature terminals of the motor in voltmeter ammeter method we should use a less value of dc voltage to find the resistance
An 'armature winding' is the rotor winding, and the 'field winding' is the stator winding.
yes
A motor with large windings will have greater shunt resistance than armature resistance due to the sheer amount of copper wire it must travel through. The gauge of the wire also plays a part in this process.
avoid high stating currents
A: practically any series resistance will do that
Right now a DC engine is begun the armature is stationary and there is no counter EMF being produced. The main part to cutoff beginning current is the armature resistance, which, in most DC engines is a low esteem.
There is not enough information to answer the question. A DC generator is never described in kVA because DC generators are specified in terms of kilowatts.
Your measure resistance in OHMS ΩOhms.
It will run slower because the resistance in series with the motor will take some of the voltage and thereby reduce the current to the armature windings (less magnetic field).