of course you can
Yes, superposition theorem holds true in AC circuits as well. You must first convert an AC circuit to the phasor domain and the same rules apply.
yes
yes ... and ofcourse! with keeping in mind about the direction and magnitude of the parameters in circuit.
To develop an AC equivalent circuit, start by identifying all the circuit elements and their values, including resistors, capacitors, and inductors. Replace all voltage and current sources with their phasor equivalents, converting time-varying signals into their frequency-domain representations. Next, apply circuit analysis techniques, such as mesh or nodal analysis, to derive the impedance of the components and determine the circuit's response. Finally, combine the results to create a simplified equivalent circuit that represents the AC behavior of the original circuit.
Not clear what your question is. First of all, circuits are not classified as DC and AC. Circuits are what they are, and you can apply either AC or DC to any circuit. However, considering a circuit that was designed only for use with DC applied. Still your question is unclear. What is transformer action? "Transformer Action" happens in a transformer.
Yes. We can apply the superposition theorem to an A.C. Network.
Yes. We can apply the superposition theorem to an A.C. Network.
Yes, superposition theorem holds true in AC circuits as well. You must first convert an AC circuit to the phasor domain and the same rules apply.
yes
yes, of course.
In resonance condition xl=xc so that the circuit is pure resistive.so that suporposition theorem is applied for both dc and ac circuits
Yes, the theorem still applies for AC.
both ac and dc
yes ... and ofcourse! with keeping in mind about the direction and magnitude of the parameters in circuit.
According to maximum power transfer theorem for ac circuits maximum power is transferred from source to load when the load resistance is equal to the magnitude of source impedance. The source imoedance is the thevenin equivalent impedance across the load
That will depend on the function of the linear circuit and the spectrum of the AC source. Without knowing both of those things there is no way to answer this, and you haven't specified either one.
Power factor does not apply to a resistive circuit. Just the current will follow the voltage (in phase)