[removed]

[removed]

[removed]

_generally_, an element’s chemical properties aren’t directly decided by its number of protons, but by its outermost (valence) electrons. Its atomic number (# of protons) does effect how many electrons it has, but their “positions” (electrons are quantum particles, so ideas like “location” don’t apply to them like they apply to normal things) is controlled by more complex factors.

There are yet more complex factors, but this is eli5

Chemistry is understanding charged particles. Some charges are small (we call these electrons), and some charges are a little bigger (protons).

These molecules can have different shapes. If you stack shapes like marbles into a pile, they barely touch eachother. If you stack shapes like cubes, they have full contact. Think of these points of contact as magnets. The more they touch, the stronger the connection. These atomic shapes are called atomic orbitals. The stacking shape is what influences the behaviour.

_generally_, an element’s chemical properties aren’t directly decided by its number of protons, but by its outermost (valence) electrons. Its atomic number (# of protons) does effect how many electrons it has, but their “positions” (electrons are quantum particles, so ideas like “location” don’t apply to them like they apply to normal things) is controlled by more complex factors.

There are yet more complex factors, but this is eli5

Chemistry is understanding charged particles. Some charges are small (we call these electrons), and some charges are a little bigger (protons).

These molecules can have different shapes. If you stack shapes like marbles into a pile, they barely touch eachother. If you stack shapes like cubes, they have full contact. Think of these points of contact as magnets. The more they touch, the stronger the connection. These atomic shapes are called atomic orbitals. The stacking shape is what influences the behaviour.

_generally_, an element’s chemical properties aren’t directly decided by its number of protons, but by its outermost (valence) electrons. Its atomic number (# of protons) does effect how many electrons it has, but their “positions” (electrons are quantum particles, so ideas like “location” don’t apply to them like they apply to normal things) is controlled by more complex factors.

There are yet more complex factors, but this is eli5

The protons determine the electric charge of the nucleus, and that determines how many electrons are needed to make a neutral atom.

Due to quantum mechanical effects, there are different energy “shells” that electrons can fill. Shells with higher energy are farther from the nucleus, and so the lowest energy state the atom can be in involves filling the shells from inside to out, and the outermost shell determines the place in the periodic table, and the main properties of the element.

When the outermost shell is full, adding another electron or sharing it with another element is a big step up in energy, since the next available shell is much higher energy. So elements with full outer shells don’t form bonds with other elements very well. They are the noble gasses. Two electrons is a full shell.

Three protons, and therefore three electrons has one electron occupying the outermost shell. This arrangement is highly reactive, since it doesn’t take very much energy to strip away or share the outermost electron.

Chemistry is understanding charged particles. Some charges are small (we call these electrons), and some charges are a little bigger (protons).

These molecules can have different shapes. If you stack shapes like marbles into a pile, they barely touch eachother. If you stack shapes like cubes, they have full contact. Think of these points of contact as magnets. The more they touch, the stronger the connection. These atomic shapes are called atomic orbitals. The stacking shape is what influences the behaviour.