**Definitions and Symbols**

**AMPS** =
746 watts times horse power and then divided by volts.

**C** =
Roman numeral for one hundred.

**CM** =
Circular mill which is the cross sectional area of a conductor.

**D** =
Distance which is the amount of length from the power source and in some
calculations plus the amount of length for the return path combined.

**E** =
Volts.

**EMF** =
electromotive force or [*voltage*].

**ETC.** = “and
so on , and so on”.

**Ground** =
A loose terminology that could be referring to either grounding or grounded.

**Grounded** =
neutral conductors which are normally current carrying conductors.

**Grounding** =
Bonding ground conductors or earth ground conductors.

**GFCI** = “Ground
Fault Circuit Interrupter”. A device that in generic terms monitors
the hot conductor, the grounded conductor, and the grounding
conductor. The device monitors the electrical circuit that it is to protect
for a leakage between these lines with a limit of a maximum leakage of 5
milliamps, or .005 of one amp.

In generic terms the GFCI was discovered, and utilized in our wiring method to protect accidental loss of life, due to shock hazards.

The GFCI has been very successful by all available statistics at saving many lives since it’s conception and use began. When “us”old folks? were kids, and if a radio dropped in our bathtub while we were in it, we most likely were dead! Now with theGFCI protection device we might have a half a chance at survival. A GFCI is so sensitive that a leakage of .005 of one amp between the grounded conductor and hot conductor, or between the hot conductor and the grounding conductor, or even between the grounded conductor {white} and the grounding conductor {green} is designed to kick out the device, and de-energize the circuit that GFCI is to protect.

**Horsepower** =
a measurement of mechanical power that a motor produces. In electrical, one
horse power equals 746 watts. In mechanical terms one horse power is produced
when 33,000 pounds are lifted one foot in one minute. Horse power represents
the work being done by the output of an electric or internal combustion style
motor.

**Hot** =
A current carrying conductor with voltage present.

**I** =
Load in amperes which is the resistance multiplied by the voltage.

**Input** =
What you pay for

**Input** = In
another term input can be a Primary of a transformer

**K** =
Short for kilo in Greek meaning/one thousand. Remember this term for electrical
terminology. Example kilowatt / KVA / “K”= a
terminology of conductor resistance which is the resistance of a conductor
multiplied by the circular mill and then divided by one thousand, normally
found in a voltage drop calculation.

**Kilowatt** =
Units of watts in calculation of one thousand.

**M** =
Roman numeral for one thousand. Not normally found in electrical terminology.

**Megawatt** =
units of watts in calculation of one million.

**Neutral** =
The return path of a circuit carrying only the unbalanced load of two ungrounded
conductors. A neutral may not be broken by a switch or other type of device.
A neutral will be referred to as a grounded conductor.

**Ohms** =
A measurement of resistance. The resistance through which one volt will force
one ampere.

**Output** =
Work performed

In another term output can be a Primary of a transformer

**Parallel Circuit** =
Where the current divides, and therefore has more than one path to flow,
their total resistance is the sum of individual currents. The voltage across
each of the loads are the same. The total resistance is less than any individual
resistor. In a parallel circuit, you can remove one resistance [*light
bulb etc.*] without affecting the work performance of any of the other
resistance [*light bulb* *etc.*] on that
parallel circuit.

**PF** =
Power factor which is the ratio between the power in watts, and the apparent
power in volt-amps. Power factor is normally expressed in percentages.

**R** =
Resistance which is the opposition that a device, or material offers to the
flow of current. The opposition which results in the production of heat in
the material carrying the current. Resistance is measured in ohms. All resistance
have two dimensions. Cross sectional area, and length.

**Series Circuit** =
Where the current flow is the same. The total resistance equals the sum of
the individual resistance. In a series circuit you can not remove one resistance
[*light bulb etc.*] on that series circuit. [*The
circuit will* *de-energize unless you replace the connected
void created by the* *removal of that resistance,* {*light
bulb etc.*}].

**V** =
Volts which is a nominal value assigned to a circuit or system for the purpose
of conventionally designating it’s voltage class. The pressure required
to force one ampere through a resistance of one ohm.

**VA** =
Volt amps which is the electric current that will flow through one ohm under
the pressure of an applied voltage.

**VD** =
Waste of electricity due to the heating of a conductor.

Voltage drop which is the amount of voltage reduced due to the resistance and length and load of a wire used.

**VD** = The
load applied to a conductor multiplied by the resistance created by that
conductor.

**W** =
Watts, which is a unit of electrical power of the rate that a form of energy
[*work* *performed*]. A unit measure of
power.

**Ungrounded** =
Hot Conductor.

**Volt Amperes** =
Watts divided by the power factor.

If carefully said, and in general
(*Layman’s*) terms, volt amperes and watts are generally
the same, unless dealing with electronics. **VA = W** or
watts divided by power factor.

**PF**

**Watts** = **W
= VA x PF** or volt amperes multiplied by the power factor

If
carefully said, and in general (*Layman’s*) terms,

volt-amperes and watts are generally the same, unless dealing with electronics.

*This document is based on the 2002 national electrical code and is designed
to give you an option, as a self-help, that should pass minimum code requirements.
While extreme care has been implemented in the preparation of this self-help
document, the author and/or providers of this document assumes no responsibility
for errors or omissions, nor is any liability assumed from the use of the
information, contained in this document, by the author and / or provider.*

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