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This solution may not be suitable for all... but for some you can use this.. it's just that you need to first simplify the circuit using source transformation and reduce the given network to a current source in parallel or a voltage source in series.... and the resultant resistance is the thevin or norton resistance and that current or voltage source is the equivalent thevin voltage or norton current.

You could try doing your own homework and learning how to solve it for yourself the way your teacher taught you!

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Q: How can you solve Norton's Theorem Thevenin's Theorem and network problems easily?

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the network which consist linear elements is known as linear network

internal Network

you cannot create a network with only one odd vertice because then the network would end straight away and that the network would not be complete

The Hotbird network search frequency will depend on where you live and how far you are from a tower.

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thevenins theorem is applicable to network which is linear ,bilateral

yesAnswerNo it cannot, any more than Ohm's Law can be applied to circuits with non-linear elements.

Yes. We can apply the superposition theorem to an A.C. Network.

Yes. We can apply the superposition theorem to an A.C. Network.

Superposition theorem can be applied if- 1) The network is linear 2) The solution of the network is unique

Millman's theorem

Superposition theorem is not applicable on non-linear networks.

Fosterβs reactance theorem is a principle in electrical engineering that states that any passive network made up of inductors and capacitors can be transformed into a network of resistors by using conjugate matching. This theorem is used in the design and analysis of complex impedance networks.

Because Thevenin does not work for a nonlinear network, e.g. a battery in series with a diode and resistor.

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.

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.

Try taking it to a phone shop, and tell them that you have network problems, but i doubt you can fix it at home :-)