You know that the voltage across a capacitor lags the current because the current must flow to build up the charge, and the voltage is proportional to that charge which is built up on the capacitor.
Why does voltage lag a capacitor?
Real capacitors also have some inductance, which will smooth out the sharp transition at the beginning, assuming V = I = 0 V = I = 0 to start. Capacitors needs current to develop voltage. So first there should be current before the voltage. Current leads voltage. (no pun intended) Voltage lags current. Just trying to visualize intuitively.
Why does a capacitor pass more current than a volt?
Since capacitors “conduct” current in proportion to the rate of voltage change, they will pass more current for faster-changing voltages (as they charge and discharge to the same voltage peaks in less time), and less current for slower-changing voltages.
Why does voltage in capacitor lag behind the source voltage in RC circuit?
Why voltage in capacitor lags behind the source voltage in RC circuit? Voltage across the capacitor lags behind the current through capacitor as we know. But why the voltage across the capacitor lags behind the source voltage in this circuit ? Similarly it is found that voltage across the inductor leads the source voltage in RL circuit.
The dual arrangement - current-supplied capacitor, can help us easily explain why voltage lags the current with exactly 90 deg. In this arrangement, an AC current source drives the capacitor that now acts as a current-to-voltage integrator. "Current source" means that it produces and passes sinusoidal current through the capacitor in spite of all.
Is there a theory of leading and lagging a capacitor?
There is no theory of leading and lagging. @ShadyProgrammer, the instantaneous voltage across a capacitor is not dependent on the current through at that instant but, rather, on the history of the current through. Also, it is important to distinguish between AC analysis (sinusoidal steady state) and transient analysis.
The (applied) voltage across both components will lag the current through the circuit at some value between 0∘ 0 ∘ and 90∘ 90 ∘ depending on the values of the capacitance of the capacitor, the resistance of the resistor and the frequency of the applied voltage.