A circuit achieves maximum power transfer when the resistance of the load (the device receiving power) is precisely equal to the internal resistance of the voltage source. This internal resistance is often fixed and expressed in Ohms and is referred to as impedance if the circuit contains components such as coils (inductors) or capacitors. The […]
Understanding
Understanding Kirchhoff’s Circuit Law
Kirchhoff’s Circuit Laws define voltage and current relationships and serve as the foundation for understanding complicated circuits. In one of our earlier lesson, we looked about resistors and how one equivalent resistance (RT) can represent a series, parallel, or combination of resistor connections. Ohm’s Law is readily followed by these circuits when calculating voltage and current. […]
Understanding How Electricity Flows in DC Circuits
As we all know electrical circuits consist of interconnected electrical elements. Current is measured in amperes (A), represents the flow of electric charge around a closed loop. This flow is driven by a potential difference (electromotive force, EMF) measured in volts (V). We know that, all materials are composed of atoms, however these atoms also […]