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Unit 1 – Day 3

Unit 1 – Day 3. Bonding. The Stable Octet. Atoms are most stable when they have a full outer shell of electrons. This is why noble gases, which have a full shell, do not react. For other elements, they will need to gain or lose electrons to obtain a full outer shell. Ions.

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Unit 1 – Day 3

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  1. Unit 1 – Day 3 Bonding

  2. The Stable Octet • Atoms are most stable when they have a full outer shell of electrons. This is why noble gases, which have a full shell, do not react. • For other elements, they will need to gain or lose electrons to obtain a full outer shell.

  3. Ions • When an atom gains or loses electrons, it becomes a charged ion. • If an atom loses negative electrons, it becomes positive. • If an atom gains negative electrons, it becomes negative. • Example: • Na  Na+ + e- • S + 2e-  S2-

  4. Metals • Metals are elements on the left side of the periodic table, like sodium or iron. • They have less than 4 electrons in their outer shell. • They tend to lose electrons and become positive ions.

  5. Non-metals • Non-metals are elements on the right side of the periodic table, like oxygen or chlorine. • They have more than 4 electrons in their outer shell. • They tend to gain electrons and become negative ions.

  6. Ionic Bonds • Metals tend to give their electrons to non-metals, so they can both get a full outer shell. • The metal and non-metal ions are opposite charges, and they attract. • This attraction is called an ionic bond.

  7. Properties of Ionic Compounds • An ionic bond is very strong. • As well, the ions arrange themselves so that molecules attract to other molecules nearby.

  8. Properties of Ionic Compounds • Because of this, it is very difficult to pull apart ionic molecules. • This affects many properties. • Melting Point: • Ionic compounds are very difficult to melt, because in order to make a liquid, molecules need to move farther apart.

  9. Properties of Ionic Compounds • Smell • Ionic compounds have no smell, because in order to enter the air, molecules would need to leave the surface. • Hardness • Ionic compounds are hard to crush, because the network of molecules supports each other in a crystal.

  10. Properties of Ionic Compounds • Solubility • Ionic compounds dissolve in substances like water. The charges from a water molecule pull apart the ions.

  11. Properties of Ionic Compounds • Electrical Conductivity • When melted or dissolved, ionic compounds separate into ions. These ions can carry electrical charges.

  12. Covalent Bonds • Non-metals need to gain electrons to fill their outer shell, so they sometimes share electrons with each other. • When two non-metals share electrons, it is called a covalent bond.

  13. Pure Covalent Bonds • If the atoms are the same, they share equally. This is called a pure covalent bond. • Ex: H2, O2, N2 , CH bonds • Pure covalent compounds have no charges, so the molecules don’t attract each other as well as ionic compounds do.

  14. Pure Covalent Properties • Pure covalent compounds have the following properties: • Strong odour (molecules escape into the air easily) • Crush easily (no crystal support) • Do not dissolve in water (no charges to attract) • Do not conduct electricity (no ions) • Low melting pt. (molecules are easy to separate)

  15. Polar Covalent Compounds • Sometimes when atoms share electrons, the electrons are closer to one atom than the other. • This results in one atom having a slight negative charge, and the other having a slight positive charge.

  16. Polar Covalent Properties • Pure covalent compounds have the following properties: • No odour (slight charge holds molecules in place) • Hard (charges have some crystal support) • Dissolve in water (slight charges attract water) • Do not conduct electricity (no ions) • Average melting point (molecules are easier to separate than ionic, but not as easy as pure cov.)

  17. Table of Properties • Use your notes to summarize into a table the properties of the three types of compounds.

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