![]() When describing voltage, current, and resistance, a common analogy is a water tank. Voltage is represented in equations and schematics by the letter "V". The unit "volt" is named after the Italian physicist Alessandro Volta who invented what is considered the first chemical battery. It is measured in volts, which, technically, is the potential energy difference between two points that will impart one joule of energy per coulomb of charge that passes through it (don't panic if this makes no sense, all will be explained). This difference in charge between the two points is called voltage. We define voltage as the amount of potential energy between two points on a circuit. So, let's start with voltage and go from there. Ohm starts by describing a unit of resistance that is defined by current and voltage. Georg Ohm was a Bavarian scientist who studied electricity. Components in the circuit allow us to control this charge and use it to do work. A circuit is a closed loop that allows charge to move from one place to another. So, when we talk about these values, we're really describing the movement of charge, and thus, the behavior of electrons. Resistance is a material's tendency to resist the flow of charge (current).Current is the rate at which charge is flowing.Voltage is the difference in charge between two points.The three basic principles for this tutorial can be explained using electrons, or more specifically, the charge they create: ![]() ![]() They all operate using the same basic power source: the movement of electrons. ![]() Your lightbulb, your stereo, your phone, etc., are all harnessing the movement of the electrons in order to do work. Electrons create charge, which we can harness to do work. Electricity is the movement of electrons. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |