No, it can't be applied and have an accurate result.
Superposition theorem is not applicable on non-linear networks.
L and C
An electrical network is a system for supplying electricity in a given region.
it means network operating center engineer, one who operates network.
As load exceeds network capacity, packets gets jammed at nodes. These packets never go forward unless load goes below network capacity. Hence when load exceeds network capacity delay tends to infinity. As load exceeds network capacity, packets gets jammed at nodes. These packets never go forward unless load goes below network capacity. Hence when load exceeds network capacity delay tends to infinity.
thevenins theorem is applicable to network which is linear ,bilateral
Linear elements :In an electric circuit, a linear element is an electrical element with a linear relationship between current andvoltage. Resistors are the most common example of a linear element; other examples include capacitors,inductors, and transformers.Nonlinear Elements :A nonlinear element is one which does not have a linear input/output relation. In a diode, for example, the current is a non-linear function of the voltage.Most semiconductor devices have non-linear characteristics.
Because Thevenin does not work for a nonlinear network, e.g. a battery in series with a diode and resistor.
P. Beck has written: 'A reduced gradient algorithm for nonlinear network problems' -- subject(s): Algorithms, Network analysis (Planning), Nonlinear programming 'LE COEUR DU CHRIST DANS LA MYSTIQUE RHENANE'
Superposition theorem is not applicable on non-linear networks.
J. A Landt has written: 'The transient response of thin-wire antennas and scatteres loaded with circuits and nonlinear elements' -- subject(s): Transients (Dynamics), Electric network analysis, Antennas (Electronics)
minimum phase network
the network which consist linear elements is known as linear network
Here are a few:CCNA - CiscoCCNP - CiscoNetwork+ - CompTIASecurity+ - CompTiaMCSA - Microsoft (has many network elements)MCITP - Microsoft (many network elements)
Links and nodes.
Because Ohm's Law is only applicable on good conductor which shows linear relationship b/w voltage and resistance while in the semi conductors it shows non linear relationship, that's why Ohm's law is not applicable on semi conductors...
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