if capacitor supplies magnetizing current only ? how load current is supplied to the inductor? does it flow along side the capacitor current thus adds up at the inductor?may be answering with drawings with arrows could help?
Let's start with simple, ideal components (word drawings
).
Say you have an AC voltage source and an inductor in a circuit loop. Current will lag the voltage by 90 degrees.
Say you have an AC voltage source and a capacitor in a circuit loop. Current will lead the voltage by 90 degrees.
Say you have an AC voltage source, an inductor, and a capacitor all connected in parallel. Current can be anywhere between + or - 90 degrees... depends on the properties of the inductor and capacitor...
If the inductor and capacitor properties create a "resonant" circuit, i.e. perfectly tuned for the AC frequency, there will be some initial current to charge the circuit, but after that, there will be no current flowing from the voltage source to either the inductor or capacitor. Current will simply flow back and forth between the inductor and capacitor. With the three component circuit, you have two (2), three-conductor nodes. Perform a KCL analysis on either of the nodes
Couple this principle with less-than-ideal, real-world components and presto...
One wayto get a better understanding is, find yourself a decent circuit simulator app, setup the described circuit, and graph the currents for each "leg" of a node.