1.3 Bonding Flashcards
Define ionic bonding
Electrostatic force of attraction between oppositely charged ions formed by electron transfer
Ionic Bonding
Metal atoms ___ electrons to form ___ ions
Metal atoms lose electrons to form +ve ions
Ionic Bonding
Non-metal atoms ____ electrons to form ___ ions
Non-metal atoms gain electrons to form -ve ions
Simplest ions are…
single atoms which have lost/gained electrons to make full outer shell
What are compound ions?
Ions that are made up of groups of atoms with an overall charge
State the formula for a sulfate ion
SO42-
State the formula for a hydroxide ion
OH-
State the formula for a nitrate ion
NO3-
State the formula for a carbonate ion
CO32-
State the formula for an ammonium ion
NH4+
Name the structure of ionic crystals
Giant Ionic Lattice
Sodium nitrate contains Na+ (1+) and NO3- (1-) ions. State the fomula of the sodium nitrate.
Magnesium chloride contains Mg2+ (2+) and Cl- (1-) ions. State the fomula of the magnesium chloride.
Name 3 physical properties of ionic compounds
- Conduct electricity only when they’re molten or dissolved
- High melting points
- Tend to dissolve in water
Why can ions conduct electricity when they’re molten or dissolved?
∵ ions in liquid are free to move and carry a charge
Why can’t ions conduct electricity when they’re in a solid?
∵ ions are in fixed position by strong ionic bonds
Why do ionic compounds have high melting points?
- Giant ionic lattices
- Strong electrostatic forces of attraction between oppositely charged ions
- Takes a lot of energy to overcome these forces
Why do ionic compounds tend to dissolve in water?
- Water molecules are polar
- Part of molecule has a small negative charge and other bits have small positive charges
- Charged parts pull ions away from lattice = causing it dissolve
Ionic bonding is stronger and melting points are higher when ions are… (2x)
smaller and/ or have higher charges
When do molecules form and how are they held together?
- Form when 2 or more atoms bond together
- Held together by strong covalent bonds
What do single covalent bonds contain?
Shared pair of electrons
Describe covalent bonding
- Two atoms share electrons so they’ve both got full outer shells
- Both postive nuclei are attracted electrostatically to shared electrons
Multiple covalent bonds contain…
multiple shared pairs of electrons
Draw methane, represent the covalent bonds by drawing lines
Why can carbon form giant covalent structures?
∵ they can form 4 covalent bonds
Describe the structure of graphite
- Carbon atoms are arranged in sheets of flat hexagons covalently bonded with 3 bonds each
- 4th outer electron of each carbon atom is delocalised
- Sheets of hexagons are boned together by weak van der Waal forces
Name 5 properties of graphite
- Low density
- Dry lubricant/slippy
- Electrical conductor
- Insoluble in any solvent
- Very high melting point
Explain why graphite has a low density
Layers are quite far apart compared to the length of covalent bonds
Explain why graphite is an electrical conductor
‘Delocalised’ electrons aren’t attached to any particular carbon atoms & free to move along sheets carrying a charge
Explain why graphite is a dry lubricant/slippy
Weak bonds between layers in graphite = easily broken ∴ sheets can slide over each other
Explain why graphite has a very high melting point
Covalent bonds are very strong and require lots of energy to break
Explain why graphite is insoluble in any solvent
Covalent bonds in sheets are too strong to break
Describe the structure of diamond
- Each carbon atom is covalently bonding to 4 other carbon atoms (giant covalent structure)
- Tetrahedral shape
Name 5 properties of diamond
- Very high melting point
- Extremely hard
- Good thermal conductor
- Can’t conduct electricity
- Won’t dissolve in any solvent
Why is diamond a good thermal conductor?
Vibrations travel easily through stiff lattice
Why can’t diamond conduct electricity?
Outer electrons held in localised bonds
Why do diamond gemstones sparkle a lot?
Its structure makes it refract light a lot
What is dative covalent bonding (or co-ordinate bonding)?
When shared pair of electrons in covalent bond come from only one of the bonding atoms
Name an example of dative covalent bonding & explain how it is an example of this bonding
Ammonium ion (NH4+)
Forms when nitrogen atom in ammonia molecule donates a pair electrons to proton (H+)
Illustrate dative covalent bonding in an ammonium ion (NH4+)
Define metallic bonding
Metallic bonding is the electrostatic force of attraction between the positive metal ions and the delocalised electrons
Metals elements exist as…
giant metallic lattice structures
Describe metallic bonding
- Outer shell electrons of metal are delocalised
- Electrons free to move
- Leaves positive metal ion
- Positive metal ions attracted to delocalised negative electrons
- Form lattice of closely packed positively ions in sea of delocalised electrons
- This is metallic bonding
Name 4 properties of metals
- High melting points
- Good thermal conductors
- Good electrical conductors
- Insoluble (expect in liquid metals)
Why do metals have high melting points?
Strong electrostatic attraction between positive metal ions and delocalised sea of electrons
Why are metals good thermal conductors?
Delocalised electrons can pass kinetic energy to each other
Why are metals good electrical conductors?
Delocalised electrons can move and carry current
Why are metals insoluble?
Strong metallic bonds
Name 3 factors that affect the strength of metallic bonding
- Number of protons/strength of nuclear attraction
- Number of delocalised electrons per atom
- Size of ion
Metallic Bonding
More protons = ….
stronger bond
Metallic Bonding
More delocalised electrons per atom = ….
stronger bonding
Metallic Bonding
Smaller the ion = …
stronger the bond
Explain why Mg has stronger metallic bonding than Na and a higher melting point
- In Mg: more electrons in outer shell that are released to sea of electrons
- Mg ion is smaller and has more than one proton
- ∴ stronger electrostatic attraction between positive metal ions and delocalised electrons = higher energy is needed to break bonds
Illustrate a giant ionic lattice of sodium chloride