# Glossary

## Volts
Voltage

## Amperes
Current

## Ohms
Resistance 

## Hertz (f)
Term      | Symbol | Weight
----------|------- | -----
Hertz     | Hz     | $10^0$
Kilohertz | kHz    | $10^{3}$
Megahertz | mHz    | $10^6$



## Watt (Power)

$Power = V * I = \frac{V^{2}}{R} = I^{2}R$ 

Joules per Second

Term | Symbol | Weight
-----------|----|------
 Nanowatt  | nW | 10-9
 Microwatt | $\micro$W | $10^{-6}$
 Milliwatt | mW | $10^{-3}$
 Watt      | W  | $10^{0}$
 Kilowatt  | kW | $10^{3}$
 Megawatt  | MW | $10^{6}$
 Gigawatt  | GW | $10^{9}$

**Examples:**

Device | Power
-------|----------
Arduino| 167mW
Laptop | 1.5W
House  | 2.2kW


## Ohms Law
$$
V = {I}*{R}
$$

## Impedance (Z)

## Voltage (V)

## Resistance (R)

## Capacitance (C)

## Current (I)
How many electrons flow through a circuit in  a second

## Polarity
Means if a component is symmetric or not
Polarised means that a component is not symmetric

## Voltage Divider

## Farad
1 Farad = the ability to store 1 couloumb

Term | Symbol | Weight
-----------|----|------
 Picofarad  | pW | $10^{-12}$
 Nanofarad  | nF | $10^{-9}$
 Microfarad | $\micro$F | $10^{-6}$
 Milifarad  | mF | $10^{-3}$
 Farad      | F  | $10^0$
 Kilofarad  | kF | $10^{3}$

## Couloumb
1 coulomb is the electric charge transported within one second through the cross-section of a conductor in which an electric current of the strength of 1 ampere flows.

## LED

Anode - The shorter Leg
Cathode -  The longer Leg

## Diode
## Anode
The positive end of a diode

## Cathode
The negative end of a diode

## Conventional Current Flow
When electricity was discovered people thought the electrons flow from the positive terminal to the negative, in actuality they flow in the opposite direction, but it is still possible to calculate the flow with the old way.