GCSE Chemistry - Electron Arrangement
Understanding Electron Arrangement in Atoms
The Importance of Electron Shells
- Most atoms, like fluorine, have an incomplete outer shell of electrons, which is crucial for their stability.
- Atoms react with others to gain or lose electrons to achieve a full outer shell, essential for stability.
Drawing Electron Arrangements
- Sodium has an atomic number of 11, indicating it has 11 protons and electrons arranged in shells around the nucleus.
- The first shell holds two electrons; the second can hold up to eight. Electrons are added in specific positions before filling them completely.
Stability and Reactivity of Atoms
- A sodium atom is unstable with one electron in its outer shell instead of eight, prompting it to react with other atoms.
- Noble gases (Group 0), like neon, have full outer shells and do not react due to their stable configuration.
Calculating Electron Structures
- To find the electron arrangement for argon (atomic number 18), we fill the shells: 2 in the first, 8 in the second, and 8 in the third.
- This can also be represented numerically as "2, 8, 8" for clarity.
Examples of Electron Configurations
- Calcium (atomic number 20): It has two electrons in its fourth shell but needs to lose these two for stability.
- After losing two electrons, calcium becomes a calcium ion with a +2 charge due to having more protons than electrons.
Understanding Fluorine's Configuration
- Fluorine has an atomic number of nine: it contains two electrons in its first shell and seven in its second (written as "2, 7").