OHM’S LAW

Figure 2-3.—Different characteristics of current and water. broken pipe, but current cannot flow out of a broken wire. When a wire is broken, the force of the voltage is removed from the motor, as shown in figure 2-3. The circulating pump in the working system creates a force that moves hot water through the pipes and radiator. The battery creates a force that moves current through the wires and causes the motor to run. The wire and pipe are broken open in the broken system. In these instances, the circulating pump forces water to flow out of the pipe, but even though the battery still creates a voltage force, current does not flow out of the wire. You will find additional information on the basic principles of electricity in the NEETS, module 1, NAVEDTRA 172-01-00-88, chapter 1. OHM’S LAW In the early part of the 19th century, George Simon Ohm proved by experiment that a precise relationship exists between current, voltage, and resistance. This relationship is called Ohm’s law and is stated as follows: I = E/R, where: I = current in amperes, E = voltage in volts, and R = resistance in ohms. As stated in Ohm’s law, current is inversely proportional to resistance. This means, as the resistance in a circuit increases, the current decreases proportionately. In the equation I = E/R, if any two quantities are known, the third one can be determined. NEWTON’S LAWS Sir Isaac Newton was an English philosopher and mathematician who lived from 1642 to 1727 A.D. He was the formulator of the basic laws of 2-4