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Computational Modeling of Electrical Systems - Coggle Diagram
Computational Modeling of Electrical Systems
Electrostatics
Electric Charge and Conservation: The fundamental concept of electric charge, its conservation, and the existence of positive and negative charges.
There are two types of electric charge: positive and negative.
Electric charge is conserved in an isolated system.
Coulomb's Law and Electric Forces: Coulomb's Law describes the electric force between charged objects.
Electric Fields: The concept of an electric field, including fields created by point charges and continuous charge distributions.
Conductors, Insulators, and Semiconductors: The classification of materials based on their electrical conductivity.
Conductors allow free movement of electrons.
Insulators do not allow free movement of electrons.
Semiconductors have properties between conductors and insulators.
Electric Potential
Potential Energy and Electric Potential: Electric potential energy and the definition of electric potential.
Voltage and Potential Difference: The concept of voltage as the difference in electric potential between two points.
Electric Potential in Constant Electric Fields: Calculating electric potential in a uniform electric field.
Electric Potential Due to Point Charges: Determining the electric potential created by point charges.
Electric Flux and Gauss's Law
Gauss's Law: The relationship between electric flux and enclosed charge, and its applications.
Electric Flux: The measure of the electric field passing through a surface.
capacitors
RC Circuits: Circuits containing resistors and capacitors, and their charge/discharge behavior.
Charging capacitor
Discharging capacitor
Capacitance and Capacitors: The ability of a device to store electric charge.
Parallel-plate capacitor
Energy stored
