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thevenin's and norton's theorems are equivalent.theoritically both can be derived from each other.if we consifder thevenin's equivalent circuit it consists of voltage source in series with thevenin's resistance .but an equivalent circuit can be obtained by replacing thevenin's voltage source by an equivalent current source with a resistance ioe thevenin's resistance in parallel which gives us norton's circuit.mathematicaaly both are interconvertible using ohm's law
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Are there any restrictions for the use of circuit elements in Thevenin's theorem verification?
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...
Thevenin's theorem is applicable to a network of?
thevenins theorem is applicable to network which is linear ,bilateral
What are the applications of thevenin's theorem?
in simplifying complex circuits and for different loads this theorem proven very useful
What is norton's theorem?
Norton's theorem is the current equivalent of Thevenin's theorem.
Can thevenins's theorem be applicable in a network having nonlinear elements?
yesAnswerNo it cannot, any more than Ohm's Law can be applied to circuits with non-linear elements.
What are the disadvantage of nortons theorem?
Norton’s theorem, while useful for simplifying complex circuits, has some disadvantages. It is limited to linear circuits, meaning it cannot be applied to circuits with non-linear elements, which restricts its versatility. Additionally, the process of finding the Norton equivalent can be time-consuming for intricate circuits, potentially offsetting its simplification benefits. Lastly, it may not provide intuitive insights into circuit behavior compared to other methods like Thevenin’s theorem.
When the RL changes how does this affect the Nortons or Thevenins equivalent circuit?
When the load resistance (RL) changes, it affects the Norton or Thevenin equivalent circuit by altering the output voltage and current delivered to that load. For a Thevenin equivalent, the output voltage can change based on the voltage divider effect, while for a Norton equivalent, the output current will vary according to the current division principle. This means that the values of the equivalent voltage source (Vth) or current source (In) remain constant, but the load will experience different voltage and current levels depending on its resistance. Consequently, the overall power delivered to the load will also change.
What is the difference between a thevenins equivalent circuit and a nortons equivalent circuit?
A thevenin's equivalent circuit uses a voltage source and the norton's equivalent circuit uses a current source. Thévenin's theorem for linear electrical networks states that any combination of voltage sources, current sources and resistors with two terminals is electrically equivalent to a single voltage source V and a single series resistor R. For single frequency AC systems the theorem can also be applied to general impedances, not just resistors. The theorem was first discovered by German scientist Hermann von Helmholtz in 1853, but was then rediscovered in 1883 by French telegraph engineer Léon Charles Thévenin (1857-1926). Norton's theorem for electrical networks states that any collection of voltage sources and resistors with two terminals is electrically equivalent to an ideal current source, I, in parallel with a single resistor, R. For single-frequency AC systems the theorem can also be applied to general impedances, not just resistors. The Norton equivalent is used to represent any network of linear sources and impedances, at a given frequency. The circuit consists of an ideal current source in parallel with an ideal impedance (or resistor for non-reactive circuits). Norton's theorem is an extension of Thévenin's theorem and was introduced in 1926 separately by two people: Hause-Siemens researcher Hans Ferdinand Mayer (1895-1980) and Bell Labs engineer Edward Lawry Norton (1898-1983). Mayer was the only one of the two who actually published on this topic, but Norton made known his finding through an internal technical report at Bell Labs.
Where you use thevenins theorem in daily life?
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.
What are the practical applications of thevenins theorem?
Thevenin's Theorem simplifies complex linear electrical circuits, making it easier to analyze and design circuits by reducing them to a simple equivalent circuit with a single voltage source and series resistance. This is particularly useful in circuit analysis for determining the behavior of components connected to a network, such as finding the current or voltage across a specific load. It also aids in circuit troubleshooting and in the design of power systems, amplifiers, and filters by allowing engineers to focus on one section of a circuit at a time. Overall, Thevenin's Theorem enhances efficiency in both theoretical analysis and practical implementation of electrical systems.
How does AVG compare to mcafee and nortons?
My Choice is AVG
What is side angle angle theorem?
Any two angles of a triangle determine the third angle. As a result, the side angle angle theorem is equivalent to the angle side angle theorem.
