chemistry paper 1

Created by

Chelsy Averdung

Subdecks (1)

atomic structure & the periodic table
chemistry paper 1
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Everything is made of atoms
Most of the atom is made of empty space
Subatomic particles 
Proton
Neutron
Electron
Proton 
Positive charge, located in the nucleus
Neutron 
No charge, located in the nucleus
Electron 
Negative charge, located in shells around the nucleus
Atoms are neutral (no overall charge) because the number of positive protons equals the number of negative electrons
You cannot change the number of protons that an atom has, but you can change the number of electrons it has through a chemical reaction
Ion 
A charged atom that has gained or lost electrons, so the number of protons and electrons are no longer the same
Ionisation 
The process where an atom loses or gains electrons, becoming an ion
Positive ion 
An atom that has lost one or more electrons, so it has more positive protons than negative electrons
Negative ion 
An atom that has gained one or more electrons, so it has more negative electrons than positive protons
Atoms in different groups
Group 1 atoms lose 1 electron
Group 2 atoms lose 2 electrons
Group 3 atoms lose 3 electrons
Group 5 atoms gain 3 electrons
Group 6 atoms gain 2 electrons
Group 7 atoms gain 1 electron
Group 0 atoms do not form ions
Chemists normally write the charge on an ion as a superscript, a small number above the symbol
Ionic bonding 
Bonding that occurs between metals and non-metals, where electrons are transferred
Ionic bonding 
1. Metals need to lose electrons
2. Non-metals need to gain electrons
3. Oppositely charged ions are attracted by the electrostatic force of attraction
4. The bond formed is called an ionic bond
Fluorine cannot form an ionic bond with chlorine because they are both non-metals
Sodium cannot form an ionic bond with magnesium because they are both metals and both need to lose electrons
There is no electrostatic force of attraction between lithium and calcium ions because they are both positive
When sodium reacts with chlorine to form sodium chloride
1. Sodium loses an electron
2. Chlorine gains an electron
3. Oppositely charged ions are attracted by the electrostatic force
Giant ionic lattice 
A giant structure formed when oppositely charged ions are attracted to each other in all directions
Sodium chloride is a giant ionic lattice made of positive sodium ions and negative chloride ions
The ions in a giant ionic lattice are held together by the electrostatic force of attraction
The electrostatic force acts in all directions, allowing a giant lattice structure to form
Sodium fluoride contains sodium ions (Na+) and fluoride ions (F-)
When sodium reacts with chlorine
1. Sodium loses an electron
2. Chlorine gains an electron
When aluminium reacts with chlorine
1. Aluminium loses 3 electrons
2. Chlorine gains 1 electron
Aluminium chloride contains aluminium ions (Al3+) and chloride ions (Cl-)
Magnesium chloride contains magnesium ions (Mg2+) and chloride ions (Cl-)
When magnesium reacts with chlorine
1. Magnesium loses 2 electrons
2. Chlorine gains 1 electron
Potassium forms an ionic compound with sulfur
When two potassium atoms react with one sulfur atom
1. Potassium loses 1 electron each
2. Sulfur gains 2 electrons
The ions formed are potassium ions (K+) and sulfide ions (S2-)
High melting and boiling points of ionic compounds
Require a lot of energy to break the strong ionic bonds
Ionic compounds conduct electricity when liquid or in solution 
The charged ions are free to move and carry charge
NaCl has a high melting point because it requires a lot of energy to break the strong ionic bonds
How NaCl is formed
1. Sodium loses an electron
2. Chlorine gains an electron
Potassium fluoride has a high melting and boiling point due to its strong ionic bonds
Potassium has 19 protons, oxygen has 8 neutrons
Oxygen ions take a 2- charge because they gain 2 electrons to fill their outer shell

chemistry paper 1

Subdecks (1)

atomic structure & the periodic table

Cards (136)