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.
thevenins theorem is applicable to network which is linear ,bilateral
As we know that: The superposition theorem is that the linear responses in a circuit can be derived by summing the responses of the independent sources algebraically, therefore, it related to LINEAR CIRCUITS!
of course you can
yesAnswerNo it cannot, any more than Ohm's Law can be applied to circuits with non-linear elements.
Ohm's Law is applicable in every case, even in cases of non linear resistance such as diodes and light bulbs, and in reactive cases such as motors in AC operation. It just becomes more complex (no pun intended) to calculate effective resistance.
Superposition theorem is not applicable on non-linear networks.
Superposition theorem can be applied if- 1) The network is linear 2) The solution of the network is unique
thevenins theorem is applicable to network which is linear ,bilateral
It is applicable for only linear ciruits and is not for non linear circuit elements like diodes.
No, diodes are not linear elements like resistors are. Current can only flow in one direction in diodes.
No, superposition theorem can only be applied to linear circuits. Nonlinear circuits do not obey the principle of superposition because the relationship between current and voltage is not linear.
As we know that: The superposition theorem is that the linear responses in a circuit can be derived by summing the responses of the independent sources algebraically, therefore, it related to LINEAR CIRCUITS!
of course you can
superposition therorem states that in linear network containning more than one source of emf the resultant current in any branch is the algebraic sum of the current that would have been produced by each source of emf .taken sepertely with all other sources of emf replace by their internal resistance ........... that is called superposition theorem ..
yesAnswerNo it cannot, any more than Ohm's Law can be applied to circuits with non-linear elements.
Because Thevenin does not work for a nonlinear network, e.g. a battery in series with a diode and resistor.
superposition can find the voltage and current effect of each source to a particular branch of the circuit and we can calculate the total effect of the sources to know the effect of the total sources to that branch