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Electronics/Physics_of_electricity/Electromagnetism.md
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@ -14,13 +14,13 @@ The core of the relationship is that a changing magnetic field produces an elect
## Electric charge
We know that charge can is an innate property of all charged fundamental particles. If a particle is charged it has a positive or negative charge. The most common charged particles in the universe are negatively charged electrons or positively charged protons. When charged particles are moving, they are known as electric currents.
We know that charge is an innate property of all charged fundamental particles. If a particle is charged it has a positive or negative charge. The most common charged particles in the universe are negatively charged electrons or positively charged protons. When charged particles are moving, they are known as electric currents.
## Intrinsic magenetic moment
A **magnet** is a material or object that produces a magnetic field. The field is invisible but visible by its effects: pulling on other magnetic materials such as iron, steel, nickel, cobalt etc and attracting or repelling other magnets.
Magnetism, understood as the effect of a magnetic field, arises from the properties of the electrons in an atom. As electrons circle the nucleus they have a _direction of spin_. In most materials, equal numbers of electrons spin in opposite directions; for instant 50% spin north and 50% spin south. As a result, their magentic effects are cancelled out. However in other materials, a majority of electrons spin in one direction thus the equillibrium is lost.
Magnetism, understood as the effect of a magnetic field, arises from the properties of the electrons in an atom. As electrons circle the nucleus they have a _direction of spin_. In most materials, equal numbers of electrons spin in opposite directions; for instance 50% spin north and 50% spin south. As a result, their magentic effects are cancelled out. However in other materials (those which are magnetic), a majority of electrons spin in one direction thus the overall equillibrium is lost.
This makes them strongly _magnetic_ but they are not yet _magnetised_. For them to become magnetised another strongly magnetic material must enter into their magnetic field.
@ -30,7 +30,7 @@ The propensity for an electron to have a direction of spin is its **intrinsic ma
### What is a field
A field is a property of space. It means that a physical quantity is assigned to every point in space. This quantity has a numerical value and may vary over time.
A field is a property of spacetime. It means that a physical quantity is assigned to every point in space. This quantity has a numerical value and may vary over time.
### The electric field
@ -39,24 +39,26 @@ There are different types of field. The electric field is an instance of a **vec
- a **magnitude**: a size value, i.e. being larger or greater than something else
- a **direction**
> The value of the electric field at a point in space equals the fore that would be exerted on a unit charge at that poisition in state.
> The value of the electric field at a point in space equals the fore that would be exerted on a unit of charge at that position in space.
Every charged object sets up an electric field in the surrounding space. A second charge “feels” the presence of this field. The second charge is either attracted toward the initial charge or repelled from it, depending on the signs of the charges. Of course, since the second charge also has an electric field, the first charge feels its presence and is either attracted or repelled by the second charge too. The electric field from a charge is directed away from the charge when the charge is positive and toward the charge when it is negative.
### The magnetic field
As already noted, the magnetic field is the field created by a magnetic material: a material where the spin of the electrons is in disequillibrium. As with the electric field, a magnetic field exerts an attraction or repulsion on other spinning electrons. Attraction occurs when the two sets of electrons spin in opposite direction. Repulsion occurs when the two sets of electrons spin in the same direction.
As already noted, the magnetic field is the field created by a magnetic material: a material where the spin of the electrons is in disequillibrium. As with the electric field, a magnetic field exerts an attraction or repulsion on other spinning electrons. This is the **magnetic force**; the force is transmitted by the field. Attraction occurs when the two sets of electrons spin in opposite directions to each other. Repulsion occurs when the two sets of electrons spin in the same direction.
> Crucially the magnetic force influences only those charges that are already in motion.
### The electromagnetic field
Although we have described the electric and magnetic fields separately, they are in fact a single unified and inseparable field created by charged particles and particles with a magentic moment.
The electromagnetic field does not carry charge or magnetic moment, it carries energy and momentum. This energy and momentum can transfer its energy and momentum to charged particles and particles with magnetic moment.
The electromagnetic field does not carry charge or magnetic moment, it carries energy and momentum. This energy and momentum can be transferred to charged particles and particles with magnetic moment.
The magnetic field and force is more complex than the electric field/force. Whereas the electric field and force point either towards or away from the charge, the magnetic field does not point along the direction of the source of the fielse
#### Electromagnetic waves
Electromagnetic waves consist of rapidly changing electric and magnetic fields that travel as waves. Electromagnetic waves are emitted any time an electrically charged object or magnet accelerates. These waves are generally referred to as light. All frequencies of light consist of electromagnetic waves, from radio waves on the low-frequency (long wavelengths) end of the electromagnetic spectrum to gamma rays on the high-frequency (short wavelengths) end
// TODO: Now come back to Britannica notes
Electromagnetic waves consist of rapidly changing electric and magnetic fields that travel as waves. Electromagnetic waves are emitted any time an electrically charged object or magnet accelerates. These waves are generally referred to as light. All frequencies of light consist of electromagnetic waves, from radio waves on the low-frequency (long wavelengths) end of the electromagnetic spectrum to gamma rays on the high-frequency (short wavelengths) end.
https://www.britannica.com/science/electromagnetism/Coulombs-law