Thevenin's theorem is a basic equivalence principle for circuit design. It can simplify a very complex circuit to a very simple equivalent. This is done by finding the Thevenin Resistance as well as the Thevenin voltage and current. Once these are known, the equivalent circuit is simply a voltage source in series with a resistance.
To conclude we say that the Thevenin's theorem is used to simplify a complex electrical circuit. As in the experiment we calculated only one Thevenin voltage and resistance and by that one value we calculated the rest values only by changing the values of applied voltage in the equations. Hence we solved a complex circuit for different values of voltages in minimum time rather then solving again and again the whole circuit.
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thevenins theorem is applicable to network which is linear ,bilateral
Because millman's is used in parallel ckt of impedances and voltage sources
no
DeMorgan's theorem can be simply be stated simply as "Break the line, and change the sign." Where line represents complement...
conclusion to the statistics sampling
thevenins theorem is applicable to network which is linear ,bilateral
no thevenins theorem works for every type of element. for a.c. analysis of a circiut consisting of capacitors inductors etc. a different method is followed to find thevenins equivalent but it is valid...
in simplifying complex circuits and for different loads this theorem proven very useful
in conclusion,
A conclusion proved by deductive reasoning.
yesAnswerNo it cannot, any more than Ohm's Law can be applied to circuits with non-linear elements.
proof
A conclusion proved by deductive reasoning
The number of vehicles per hour entering a busy road junction equals the number leaving it The amount of liquid entering a pipe equals the amount issuing from the end, plus the leaks.
A proposition or theorem formed by contradicting both the subject and predicate or both the hypothesis and conclusion of a given proposition or theorem and interchanging them.
theorem
That which is considered and established as a principle; hence, sometimes, a rule., A statement of a principle to be demonstrated., To formulate into a theorem.