The two sources add together, imposing a DC bias to the AC source.
With an AC and a DC voltage source in series, the DC voltage can be added to the RMS value of the AC voltage to give the effective voltage.
we will get rectified voltage at the output.in case we replaced the DC source with AC source
A: AC recitification and battery source.
The voltage is greater than the applied voltage, why?
ummmmm... put it in series.
With an AC and a DC voltage source in series, the DC voltage can be added to the RMS value of the AC voltage to give the effective voltage.
For part of the AC voltage wave, the capacitor will be above the source voltage, and will discharge until the AC voltage wave increases above the capacitor's stored voltage.
There's no correlation between the voltage, the current, and whether the source is AC or DC.
we will get rectified voltage at the output.in case we replaced the DC source with AC source
A: AC recitification and battery source.
The voltage is greater than the applied voltage, why?
the sum of the two
ummmmm... put it in series.
-- If the excitation source is AC, then the steady state of the circuit depends on the voltage, frequency, and waveform (harmonic content) of the source. -- If the excitation source is DC, then the steady state current in a series circuit is zero. DC doesn't pass through a capacitor.
A reactor in an AC circuit is basically an inductor which will filter spikes in source voltage. See the related link.
A: There is no difference except for the type of source
Voltage dividers are used in a linear circuit to separate the input voltage into a small portion known as the output voltage. It is commonly used to get a low voltage signal equal to the voltage being measured.