The substitution principle (as seen in this book; in italian, sorry)
Let A and B be any two part of an electrical network with voltage and current sources and only resistances, connected by
ideal conductors. Suppose the voltage between the conductors is v.
Then, in order to study A, B can be replaced with an ideal generator
of voltage v.
Thévenin's theorem
Any linear electrical network with voltage and current sources and
only resistances can be replaced at terminals A-B by an equivalent
voltage source Vth in series connection with an equivalent resistance
Rth.
There must be something I do not understand.
It seems to me that these statements cannot be both true (or at least, the first one would imply the equivalent resistance in Thevenin's theorem to be zero, and so the theorem loses any meaning.)
Thank you all in advance for the answers!
Best Answer
SUBSTITUTION THEOREM:
As long as terminal voltage and current is same, accordance with substitution theorem, you can substitute whatever in the branch. Here is an example that demonstrate how it works.
THÉVENIN’S THEOREM:
You have asked an important question indeed. Thévenin’s equivalent circuit has a series resistor but in the second circuit diagram I have only used a source and in the third I have used both (more possible). Both are accordance with substitution theorem.It means one can replace a branch with any combination of elements which is not true for Thévenin’s theorem.For the marked branch in the main circuit if you use Thévenin’s theorem you will get Vth or Eth = 0V and Rth =3 Ohm. This is because Thévenin’s theorem doesn’t care about rest of the network or the load resistance but substitution theorem does. Without the whole circuit substitution theorem is not applicable but in Thévenin equivalent circuit the load resistance may vary.