| United States. Office of Education - 1964 - 1160 pages
...resistance, the less the current. This is Ohm's Law. Expressed formally, a steady electric current in a circuit is directly proportional to the applied voltage and inversely proportional to the resistance. And finally, expressed as a useful formula: Current (in amperes) = voltage (in volts) _ Qr f E resistance... | |
| United States. Bureau of Naval Personnel - 1949 - 380 pages
...but an increase in resistance means a decrease in current. In other words the current flowing in a circuit is directly proportional to the applied voltage, and inversely proportional to the resistance. That is the most common way of stating Ohm's law. When you put this word statement into a mathematical... | |
| Robert Scharff - 1989 - 468 pages
...amount of current at the rated voltage. Ohm's Law Ohm's law states that the current in an electric circuit is directly proportional to the applied voltage and inversely proportional to the circuit resistance. Ohm's law may be expressed as an equation: R I = current (flow), in amperes E =... | |
| 1990 - 314 pages
...resistance (R) has been replaced by the impedance (Z) . Ohm' s Law states that the current flowing in an AC circuit is directly proportional to the applied voltage and inversely proportional to the circuit impedance. Figure 7-5 shows a simple AC circuit and the various forms of Ohm's Law which apply... | |
| Louis E. Frenzel - 1997 - 392 pages
...the most important electrical law there is. In its simplest form, Ohm's law states: The current in a circuit is directly proportional to the applied voltage and inversely proportional to the resistance. What this means is, if we increase the voltage, the current increases; if we decrease the resistance,... | |
| Frank R. Spellman, Joanne Drinan - 2000 - 282 pages
...applied to the circuit divided by the resistance of the circuit. Stated another way, the current in a circuit is directly proportional to the applied voltage and inversely proportional to the circuit resistance. Ohm's Law may be expressed as an equation: E 1= (3.1) R where / = current in amperes... | |
| M. Fogiel, U S Naval Personnel, Research and Education Association - 2002 - 502 pages
...voltage, and resistance. This relationship is called Ohm's Law and is stated as follows: The current in a circuit is DIRECTLY proportional to the applied voltage and INVERSELY proportional to the circuit resistance. Ohm's Law may be expressed as an equation: (4-1) Where: I = current in amperes... | |
| Lucille Nicolosi, Elizabeth Harryman, Janet Kresheck - 2004 - 442 pages
...relationship between current voltage and resistance in an electrical circuit; the strength of the current in an electrical circuit is directly proportional...inversely proportional to the resistance of the circuit. olfactory (ol-fak'tor-e) [L. olfactus, smell] Pertaining to the sense of smell (olfaction). olfactory... | |
| Frank R. Spellman - 2003 - 1242 pages
...applied to the circuit divided by the resistance of the circuit. Stated another way, the current in a circuit is directly proportional to the applied voltage and inversely proportional to the circuit resistance. Ohm's law may be expressed as an equation: where I = current in amperes (A) E =... | |
| Frank R. Spellman - 2004 - 707 pages
...applied to the circuit divided by the resistance of the circuit. Stated another way, the current in a circuit is directly proportional to the applied voltage and inversely proportional to the circuit resistance. Ohm.s law may be expressed as an equation: Solution R (l0.22) where / = current... | |
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