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DARLINGTON TRANSISTOR

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  A Darlington transistor circuit is a combination of two bipolar transistors connected in such a way as to provide a high current gain. Advantages: High current gain High input impedance High voltage amplification Drawbacks: High voltage drop High power dissipation High thermal resistance Applications: Power amplification Motor control High voltage switching Challenges: Heat dissipation Stability of the circuit Numerical: High current gain: typically 1000 or more Formula: Common emitter current gain (beta) of Darlington transistor circuit = β1 * β2, where β1 and β2 are the current gains of the individual transistors. Derivation: Darlington transistor circuit is derived from the basic bipolar transistor configuration. Frequency range: The frequency range of Darlington transistor circuit depends on the individual transistors used and can range from a few Hz to several MHz. Year of discovery: Darlington transistor was invented by Sidney Darlington in 1953. Waveform: The waveform of Darli
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Faraday's Law

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Faraday's law of induction/ Faraday's law It is a basic law of electromagnetism predicting how a magnetic field will interact with an electric circuit to produce an electromotive force (EMF)—a phenomenon known as electromagnetic induction . Faraday's first law of electromagnetic induction   Whenever a conductor is placed in a varying magnetic field, an electromotive force is induced. If the conductor circuit is closed, a current is induced which is called induced current. Faraday’s second law of electromagnetic induction It states that the induced emf in a coil is equal to the rate of change of flux linkage. Hope you found this post useful.
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Gauss law

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  Gauss Law It states that the electric flux through any closed surface is proportional to the total electric charge enclosed by this surface. Hope you found this post helpful.
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Wiedemann- Franz Law

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Wiedemann–Franz law  It states that the ratio of the electronic contribution of the thermal conductivity to the electrical conductivity of a metal is proportional to the temperature. Hope you found this post helpful.
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Ampere's Circuital Law

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Ampere's circuital law It states that the closed line integral of magnetic field around a current carrying conductor is equal to absolute permeability times the total current threading the conductor. Hope you found this post helpful.
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Biot-Savart law

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  Biot-Savart Law It states how the value of the magnetic field at a specific point in space from one short segment of current-carrying conductor depends on each factor that influences the field. Hope you found this post helpful.
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Lenz’s Law

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Lenz's Law It states that the polarity of an induced emf is always such that it opposes the change which produced it.                      Hope you found this post helpful.
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Watt's Law

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  Watt's Law Watt's law  defines the relationship between power, voltage and current and states that the power in a circuit is a product of the voltage and the current. Hope you found this post helpful.
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