MYP Chemistry Ionic Bonding and Ionic Compounds International College Spain

MYP ChemistryIonic Bonding and Ionic

Compounds

International College Spain

Electron Configuration in Ionic Bonding

OBJECTIVES:

–Use the periodic table to infer the number of valence electrons in an atom, and draw it’s electron dot structure.

Electron Configuration in Ionic Bonding

OBJECTIVES:

–Describe the formation of cations (positive ions) from metals, and of anions (negative ions) from non-metals.

Valence Electrons The electrons responsible for the

chemical properties of atoms are those in the outer energy level.

Valence electrons - The electrons in the outer energy level or shell

–the highest occupied energy level Inner electrons -those in the energy

levels below.

Keeping Track of Electrons Atoms in the same column...

–Have the same outer electron configuration.

–Have the same valence electrons. Easily found: same as the main group

number on the periodic table. Group 2A: Be, Mg, Ca, etc.

–2 valence electrons

Electron Dot diagrams A way of keeping track of

valence electrons. How to write them? Write the symbol. Put one dot for each

valence electron Don’t pair up until they

have to.

X

The Electron Dot diagram for Nitrogen

Nitrogen has 5 valence electrons.

First we write the symbol.

NThen add 1 electron at a time to each side.Until they are forced to pair up.

Write electron dot diagrams: Na Mg C O F Ne

Electron Configurations for Cations

Metals lose electrons to attain noble gas configuration.

They make positive ions (cations) If we look at the electron configuration,

it makes sense to lose electrons: Na 2,8,1 1 valence electron Na+ 2,8 noble gas configuration

Electron Dots For Cations Metals will have few valence

electrons (usually 3 or less)

Ca

Electron Dots For Cations Metals will have few valence electrons These will come off

Ca

Electron Dots For Cations Metals will have few valence electrons These will come off Forming positive ions

Ca2+Now make Sc an ion.

Pseudo-noble gas configuration

Electron Configurations for Anions

Nonmetals gain electrons to attain noble gas configuration.

They make negative ions (anions) Halide ions- ions from chlorine or other

halogens that gain electrons S 1s22s22p63s23p4 6 valence electrons S2- 1s22s22p63s23p6 noble gas

configuration.

Electron Dots For Anions Nonmetals will have many valence

electrons (usually 5 or more) They will gain electrons to fill outer shell.

P P3-

Stable Electron Configurations All atoms react to achieve noble gas

configuration. Noble gases have 8 outer shell

(valence) electrons. Also called the octet rule.

Ar

Ionic Bonds

The characteristics of an ionic

bond.

Ions held together by……..

electrostatic attraction

Ionic Bonds Characteristics of ionic compounds electrical conductors when melted

and when in aqueous solution. High m.p. Brittle, hard crystals

Properties of ionic compounds You are provided with three ionic

compounds For each carry out the following tests

1. Heat a sample strongly in a test tube.

2. Add a spatula of the compound to 25 cm3 of water in a small beaker- stir

3. Test the conductivity of the solution

Repeat using two spatulas

Ionic Bonding Anions and cations are held

together by opposite charges. Ionic compounds are called salts. Simplest ratio is called the formula

unit. The bond is formed through the

transfer of electrons. Electrons are transferred to achieve

noble gas configuration.

Ionic Bonding

Na Cl

Ionic Bonding

Na+ Cl-

Ionic Bonding All the electrons must be accounted for

Ca P

Ionic Bonding

Ca P

Ionic Bonding

Ca2+ P

Ionic Bonding

Ca2+ P

Ca

Ionic Bonding

Ca2+ P 3-

Ca

Ionic Bonding

Ca2+ P 3-

Ca P

Ionic Bonding

Ca2+ P 3-

Ca2+ P

Ionic Bonding

Ca2+ P 3-

Ca2+ P

Ca

Ionic Bonding

Ca2+ P 3-

Ca2+ P

Ca

Ionic Bonding

Ca2+ P 3-

Ca2+P

3-

Ca2+

Ionic Bonding

= Ca3P2Formula Unit

Calcium Phosphide

Classwork problems (a)Show the bonding between the following

1. Magnesium and Oxygen

2. Potassium and Chlorine

3. Calcium and Fluorine

4. Lithium and Nitrogen

5. Aluminium and Fluorine

Homework problemsThese are slightly harder

6. Magnesium and Phosphorus

7. Beryllium and Nitrogen

8. Calcium and Sulphur

9. Magnesium and Nitrogen

10. Aluminium and Oxygen

Properties of Ionic Compounds Crystalline structure, usually solids A regular repeating arrangement of

ions in the solid Ions are strongly bonded together. Structure is rigid. High melting points Electrical conductors when melted Electrical conductors in solution

Crystalline structure

Do they Conduct? Conducting electricity is allowing charges

to move. In a solid, the ions are locked in place. Ionic solids are insulators. When melted, the ions can move around. Melted ionic compounds conduct.

– NaCl: must get to about 800 ºC. Dissolved in water they conduct (aqueous)

Bonding in Metals

OBJECTIVES:

–Use the theory of metallic bonds to explain the physical properties of metals.

Bonding in Metals

OBJECTIVES:

–Describe the arrangements of atoms in some common metallic crystal structures.

Metallic Bonds How atoms are held together in the

solid. Metals hold on to their valence

electrons very weakly. Think of them as positive ions

(cations) floating in a sea of electrons:

Sea of Electrons

+ + + ++ + + +

+ + + +

Electrons are free to move through the solid.

Metals conduct electricity.

Metals are Malleable Hammered into shape (bend). Also ductile - drawn into wires. Both malleability and ductility

explained in terms of the mobility of the valence electrons

Malleable

+ + + ++ + + +

+ + + +

Malleable

+ + + +

+ + + ++ + + +

Electrons allow atoms to slide by.

Ionic solids are brittle

+ - + -+- +-

+ - + -+- +-

Ionic solids are brittle

+ - + -

+- +-+ - + -

+- +-

Strong Repulsion breaks crystal apart.

Crystalline structure of metal If made of one kind of atom,

metals are among the simplest crystals

1. Body-centered cubic:

– every atom has 8 neighbors

– Na, K, Fe, Cr, W

Crystalline structure of metal2. Face-centered cubic:

–every atom has 12 neighbors

–Cu, Ag, Au, Al, Pb

3. Hexagonal close-packed

–every atom also has 12 neighbors

–different pattern due to hexagonal

–Mg, Zn, Cd

Alloys We use lots of metals every day,

but few are pure metals Alloys - mixtures of 2 or more

elements, at least 1 is a metal made by melting a mixture of the

ingredients, then cooling Brass: an alloy of Cu and Zn Bronze: Cu and Sn

Why use alloys? Properties often superior to element Sterling silver (92.5% Ag, 7.5% Cu)

is harder and more durable than pure Ag, but still soft enough to make jewelry and tableware

Steels are very important alloys

–corrosion resistant, ductility, hardness, toughness, cost

Why use alloys? Look up alloys in your text book Types? a) substitutional alloy- the

atoms in the components are about the same size

b) interstitial alloy- the atomic sizes quite different; smaller atoms fit into the spaces between larger

Amalgam- dental use, contains Hg