what would be the phasor diagram of inductive load
inductive load does not allow the current to become zero eve though the supply source get removed . inductive load reduce the power factor . they does not allow sudden change in current in the load ...
resistive loadAnswerIf the current is driving a motor, then the load is resistive-inductive.
The PF will increase
since the volt amphere turns in secondary neautralises the primary voltamphere turns making the magnetic flux in the core remain constant
yesAnswerNo, but you can counter its effects. For example, if your load is inductive, then you can counter the effects of its inductive reactance by introducing capacitors with equal capacitive reactance.
The actual energy consumed in load is inductive load
Inductive since it has a motor with windings.
Yes, a coil is an example of an inductive load.
Its actually inductive, because the energy being used is to turn motors. Motor are an inductive load, so the end load is reactive. Do your own research so you will know how to apply it someday.
non- inductive load is without motor and transformer loads are non-inductive load, purely resistive are capacitive loads phase angle is unity are leading PF A non-inductive load is a load whose current does not change instantaneously.
The question makes no sense. It asks why a pure inductive load is used ... instead of a pure inductive load. Please restate the question.
inductive
inductive load does not allow the current to become zero eve though the supply source get removed . inductive load reduce the power factor . they does not allow sudden change in current in the load ...
resistive loadAnswerIf the current is driving a motor, then the load is resistive-inductive.
Resistive
No, a geyser is a resistive load.
A transformer is fundamentally a set of coils; therefore, a transformer is an inductive load. However, by "transformer load", you seem to mean "the load that is connected to a transformer". Whether that load is inductive or capacitive depends mostly on what is hooked up to the transformer.