The standard unit of electricity is defined in a systematic way. First, the ampere is defined. After, the ampere comes from the charge and coulomb of an electron.
The SI units to measure the electric expressions of voltage, resistance and current are Volt (v), Ohm (Ω) and Ampere (A), respectively.
The electrical units for measurement of electric expressions are based on the International System (SI) of units. Other units are derived from this si unit of electricity.
The units are used in electric circuits, electronics and electric appliances to measure and describe their capacity from small to large.
Standard Electrical Units of Measure
|
Electrical Parameter |
Measuring Unit |
Unit/Symbol |
Formula |
|
Voltage |
Volt |
V or E |
V = I × R |
|
Resistance |
Ohm |
R or Ω |
R = V / I |
|
Current |
Ampere |
I or i |
I = V / R |
|
Capacitance |
Farad |
C |
C = Q / V |
|
Conductance |
Siemen |
G |
G = 1 / R |
|
Charge |
Coulomb |
C |
Q = C×V |
|
Power |
Watts |
W |
P = V × I or $I^2$ × R |
|
Inductance |
Henry |
L/H |
VL = -L(di/dt) |
|
Frequency |
Hertz |
Hz |
f = 1 / T |
|
Impedance |
Ohm |
Z |
Z² = R²+X² |
Standard Units (Multiples And Submultiples)
There is a huge range of electric values between a minimum value and a maximum value of a standard electric unit. For example, the resistance of a conductor can be as low as 0.001 ohms and as high as 100000 ohms. We can avoid writing multiple zeros while describing the values of the electric unit, if we use sub-multiples and multiple values of the standard unit. Below mentioned is a table with their names and abbreviation.
|
Prefix |
Symbol |
Multiplier |
Power of ten |
|
pico |
1/1,000,000,000,000 |
p |
1012 |
|
nano |
1/1,000,000,000 |
n |
109 |
|
micro |
1/1,000,000 |
μ |
106 |
|
mini |
1/1,000 |
m |
103 |
|
centi |
1/100 |
c |
102 |
|
none |
1 |
none |
100 |
|
kilo |
1,00 |
c |
10-2 |
|
kilo |
1,000 |
K |
10-3 |
|
Mega |
1,000,000, |
M |
10-6 |
|
Giga |
1,000,000,000, |
G |
10-9 |
Below mentioned is a set of points that describes the use of units or multiple units of resistance, current and voltage.
● 1kV = 1 kilo-volt = 1,000 Volts.
● 1kΩ = 1 kilo-ohms = 1 thousand Ohms.
● 1mA = 1 milli-amp = one-thousandths (1/1000) of an Ampere.
● 1kW = 1 kilo-watt = 1,000 Watts.
● 100uF = 100 microfarads = 100 millionths (100/1,000,000) of a Farad.
● 1MHz = 1 mega-hertz = one million Hertz.
While converting one prefix to another, we have to multiply or divide the difference between the two values.
What Are The Basic Units Of Electricity?
Voltage/Volts (V) – The amount of work required to move an electric charge from one point to another is called voltage.
Current (I)/Amps (A) – Current is defined as the amount of charge (or electrons) passing through a circuit per unit of time.
Resistance (R) /Ohms (O) – Resistance is the opposition offered to the flow of current in a circuit.
Power (P)/Watts (W) – Power is defined as the product of the work required and the number of electrons passing through the circuit per unit time.
Other Electricity Units
Just like the standard units, other units are used to denote the values and quantities. They are:
Wh – The Watt-Hour is defined as the amount of electric energy consumed by an electric circuit over a given time duration. For example, a normal electric bulb consumes 100 watts of power per hour.
dB – A Decibel is a one-tenth unit of Bel (symbol B). It is used to represent a gain in voltage, power or current.
θ – Phase Angle. It is the difference (in degrees) between the voltage waveform and the current waveform, which have the same time period. It is a time difference that depends upon the circuit element. Its value can be “leading” or “lagging”. It is also measured in radians.
ω – Angular Frequency is used in AC circuits to represent phase relation between two waveforms.
τ – Time Constant, The Time Constant is a characteristic of an impedance circuit. It is the time taken by the output to reach 63.7% of its minimum or maximum value when subjected to step response input. It is a measure of time reaction.
SI Unit of charge
The SI unit of electric charge is the coulomb. A coulomb is defined as an ampere second.
The Units of Electric Charge are Listed in The Table Mentioned Below
|
Name |
Symbols |
Context |
Alternate Spellings |
prefixes |
|
coulomb |
C |
SI |
coulombs |
SI |
|
stacoulomb |
statC |
ESU |
statcoulombs |
SI |
|
abcoulomb |
abC |
EMU |
ab coulombs |
SI |
|
fanklin |
f |
Standard |
franklins |
SI |
|
electron |
e |
Atomic |
electrons |
SI |
|
Planck_charge |
planck |
planck_charges |
These are the units of electric charge.
Do You Know?
There is nothing like “1 unit electricity”.
Throughout the world, there is one type or another type of measurement which has been taken as a base amount of electric power. 1KWh is a mainly used unit of power. It is the amount of electric power consumed in 1 hour by an electric appliance of 1000 W (1KW).
Electricity is Measured in Units of Electricity.
If you’ve ever looked at an electricity bill, you’ll notice that the unit of electricity is usually expressed in kilowatt-hours (kWh). The unit, in this case, reflects the actual measure of electricity or the amount of energy consumed at a location. So, if you’ve ever wondered what the unit of electricity is, the answer is below.
Electricity is Measured in Units of SI.
When it comes to the SI unit of electricity, the unit of power is Watt. The name was preserved in honor of James Watt, the inventor of the steam engine. Watt is usually equal to one ampere under one volt of pressure, however, electricity, which is a bigger quantity, is measured in kilowatt-hours (kWh).
The Volt [V], Ampere [A], and Ohm [] are the standard units of electrical measurement for voltage, current, and resistance, respectively.
Other commonly used electrical units are derived from SI base units. These electrical units of measurement are based on the International (metric) System, generally known as the SI System.
When the amounts being measured are very big or very small, it is often essential to employ multiples or sub-multiples (fractions) of these basic electrical measuring units in electrical or electronic circuits and systems.
Electrical Units of Measurement
|
Electrical Parameter |
Measuring Unit |
Symbol |
Description |
|
voltage |
volt |
V or E |
Unit of Electrical Potential |
|
Current |
Ampere |
I or i |
Unit of Electrical Current I = V / R |
|
Resistance |
ohm |
R or Ω |
Unit of DC Resistance R= V/I |
|
Conductance |
Siemen |
G or ປ |
Reciprocal of Resistance G = 1/R |
|
Charge |
Coulomb |
Q |
Unit of Electrical Charge Q = C x V |
|
Inductance |
Henry |
L or H |
Unit of Inductance |
|
Power |
Watts |
W |
Unit of Power |
|
Impedance |
Ohm |
Z |
Unit of AC Resistance Z2 = R2 + X2 |
What Are The Four Basic Electricity Units?
The four fundamental units of electricity are:
-
Voltage is the amount of effort necessary to transfer one electric charge from one location to another. The volt is the measurement unit.
-
Current is the amount of charge that passes through a circuit in a certain amount of time. The unit is ampere.
-
The opposition provided by the current flow in the circuit is known as resistance. The units are ohms.
-
The product of work done and the number of electrons travelling through the circuit in a certain amount of time is called power. The watt is the measurement unit.
Volts, amps, ohms, and watts are the four basic units of electricity.
Stay tuned to for further information on other concepts, such as the volt.
Units of Electricity (Others)
There are other conventional units of measurement for electrical qualities other than watt and kilowatt, such as voltage, resistance, power, capacitance, inductance, and others. Some common electricity units are listed below.
|
Electrical Parameter |
Measuring Unit |
Symbol |
|
Voltage |
Volt |
V or E |
|
Resistance |
Ohm |
R or Ω |
|
Capacitance |
Farad |
C |
|
Charge |
Coulomb |
Q |
|
Inductance |
Henry |
L or H |
|
Frequency |
Hertz |
HZ |
|
Conductance |
Siemen |
G or ປ |