2007-12-13 03:13:43 · 4 answers · asked by Paul 2 in Science & Mathematics ➔ Engineering
This is the mnemonic that is generally taught:
"Eli the ice man (delivers ice)" -- the key words being ELI and ICE.
L is inductance, C is capacitance, so in the word ELI, voltage (E) leads current (I), and for capacitance it is the opposite.
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2007-12-13 04:12:02 · answer #1 · answered by tlbs101 7 · 0⤊ 0⤋
In the two circumstances contemporary is artwork the top whilst the voltage crosses 0 and contemporary is 0 whilst the voltage is on the top. The capacitor function could properly be definitely understood. whilst the fee of substitute of voltage is interior the effective direction the present is likewise interior the effective direction. because of the fact the voltage beginning as much as furnish way fronm the top the capacitor stat giving out contemporary. So the present bypass has already reversed even nevertheless the voltage has in simple terms started falling down from the top. interior the case of an inductor that is not that immediately forward. whilst we communicate approximately flux and back emf there must be a contemporary bypass. it fairly is an extremely dynamic gadget. there's a flux substitute and thank you to which back emf is triggered. This flux substitute relies upon on contemporary. For simplicity you should observe a formulation that the present relies upon on the fee of substitute of flux.
2016-11-03 03:25:47 · answer #2 · answered by dudderar 4 · 0⤊ 0⤋
The load is resistive and inductive, threfore,the current will lag the supply voltage.
2007-12-13 13:53:08 · answer #3 · answered by Anonymous · 0⤊ 0⤋
I seem to recall that inductors resist change to current while capacitors resist change to voltage.
Since the inductor is resisting change to current, I would think that means the current would lag the voltage.
2007-12-13 03:21:13 · answer #4 · answered by HooKooDooKu 6 · 0⤊ 0⤋