Module 10 Understanding chemical reactions
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Transcript of Module 10 Understanding chemical reactions
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Module 10 Understanding chemical reactions
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Lesson 1 Atomic structure
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What’s in an atom?
An atom is made up of three subatomic particles.
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The atomic number (proton number) tells you how many protons there are.
Since an atom has no overall charge the number of electrons (-) is equal to the number of protons (+).
The mass number is the total number of protons and neutrons.
Since the atomic number tells you how many protons there are, the number of neutrons is calculated by: mass number – atomic number.
Protons, neutrons and electrons
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Protons, neutrons and electrons
Subatomic particle
Mass Charge Position in atom
Proton 1 +1 Nucleus
Neutron 1 0 Nucleus
Electron 0 (1/1800)
-1Shells or
orbits
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Li7
3
Na23
11
Mg24
12
Rh103
45
Protons Electrons Neutrons
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Lesson 2 Isotopes and RAM
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What’s an isotope?Many elements are made of atoms which have the same atomic number but a different atomic mass. These atoms are called isotopes of the element.
Since the atomic number is the same, the only difference in the structure of the atoms is the number of neutrons.
e.g.,
Cl35
17 Cl37
17
Chlorine has two isotopes. Both are atoms of chlorine because the atomic number is the same.
20 neutrons17 protons17 electrons
18 neutrons17 protons17 electrons
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More isotopes
neutron
proton
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Relative atomic mass
Cl35
17 Cl37
17
20 neutrons17 protons17 electrons
18 neutrons17 protons17 electrons
To calculate the relative atomic mass (RAM) you need to know how much (abundance) there is of each isotope.
The fraction of the mass contributed by each isotope is added together.
Abundance 75 % 25 %
75100
35 = 26.25 25100
37 = 9.25+ = 35.5
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more RAM
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more RAM
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Lesson 3 Chemical reactions
1 2
3 4
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Types of chemical reactions
neutralisation
oxidation
combustion
endothermicexothermic
reduction
thermal decomposition
Gain of oxygen or loss of electrons Loss of oxygen or
gain of electrons
Decrease in temperature
Increase in temperature
A reaction in which water and/or carbon dioxide is made
An acid and alkali react to form a salt (and water)
Heat causes a compound to split into new substances
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In a reaction…..
Colour changes
A gas is made (fizzing)A change in temperature
A solid or precipitate forms
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Chemical equationsCaCO3(s) + 2HCl (aq) CaCl2 (aq) + CO2 (g) + H2O (l)
Reactants Products
When two chemicals react the product formed is called a compound. The properties of the reactants and products are all very different.
Sodium (soft metal, very reactive)
Chlorine (green, poisonous gas)
Sodium chloride(white crystalline solid)
+
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Lesson 4 Ionic bonding
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Bonding When two atoms of elements come together with enough energy they will react to form a chemical bond. In doing so, each atom is trying to get a full outer shell of electrons.
To understand bonding you must know how many electrons an atom has in its outer shell. Then using common sense you have to deduce if the atom will loose, gain or share electrons in order to achieve a full outer shell of electrons.
When atoms gain/lose electrons to form a bond then the atoms become ions, which attract to form an IONIC bond.
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Forming ions Ions are charged particles – this is shown by a ‘+’ or ‘-’ sign next to the symbol for the ion, e.g., Na+, Cl-, Ca2+.
If the atom loses electrons (negative charges) then it forms a positive ion.
If the atom gains electrons then it forms a negative ion.
The small number written next to the ‘+’ or ‘-’ sign tells you how many electrons were lost or gained., e.g., Ca2+, 2 electrons were lost.
Ionic compounds form between metal and non-metal atoms.
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Ions attract to form an ionic bond
This is a dot and cross diagram to represent the formation of ions that attract together to form the compound sodium chloride (dots and crosses are electrons).
Sodium is in Group 1, so it has 1 electron in the outer shell. Chlorine is in Group 7 and has 7 electrons in the outer shell. Sodium loses one electron and chlorine attracts it. This results in the formation of sodium ions (+) and chloride (-) ions. Opposite charges attract and an ionic bond is formed.
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Aluminium oxide
Al
Al
O
O
O
Electrons must have somewhere to go and all compounds have no overall charge. This means that the number of positive charges must balance the number of negative charges.
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Aluminium oxide
Al
Al
O
O
O
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Aluminium oxide
Al
Al
O
O
O
Al3+
Al3+
O2-
O2-
O2-
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Ionic compounds
Negative and positive ions attract to form large crystals. All the ions are held together by strong ionic bonds. NaCl, MgO all from giant lattice structures.
The structure is called ‘Giant Ionic’ or ‘Giant lattice’.
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Properties of ionic compounds The giant lattice structure produces crystals which have high melting and boiling points.
They dissolve in water.
They will conduct electricity but only when dissolved in water or melted. This allows the ions to move about and conduct a current.
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Lesson 5 Covalent bonding
H2O
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Sharing electrons
When non-metal atoms form bonds with other non-metal atoms, they have to share electrons. The bond formed is called COVALENT.
The outer shells overlap when the electrons share. A pair of shared electrons forms one covalent bond.
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Simple molecules – water
H H
O
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H H
O
H2O
One pair of shared electrons = one covalent bond
OH H
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C
O O
Simple molecules – CO2
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C
O O
O=C=O
2 pairs of shared electrons produces a double covalent bond
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Cl ClCl Cl
Cl
Cl
Cl
Cl
ClCl
ClCl Dashed lines
are weak forcesof attraction
Cl2
Properties of simple molecules They have low melting and boiling points because the simple molecules are attracted to each other by weak forces of attraction. To melt or boil covalent molecules you do not break the covalent bonds between atoms. You only separate whole molecules apart.
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Properties of simple molecules Simple covalent molecules are not soluble water.
They do not conduct electricity.
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Lesson 6 Structures
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Types of structures Giant Ionic (lattice) – e.g., NaCl
Simple molecular – e.g., H2O, CO2, Cl2
Giant molecular – diamond and graphite. Both have high melting and boiling points, but do not dissolve in water. Graphite conducts electricity.
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Giant molecular
Simple molecular
Giant Ionic (lattice)Large numbers of ions held together by ionic bonds. They have high melting and boiling points, dissolve in water.
Large numbers of atoms held together by covalent bonds. They have high melting and boiling points but do not dissolve in water.
A few atoms bonded together by covalent bonds. Simple molecules have low melting and boiling points, do not dissolve in water or conduct electricity.
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Lesson 7 Energy changes in chemical reactions
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+
Heat produced Copper sulphate solution
Most reactions produce heat
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Energy changes in reactions
Exothermic reactions
Endothermic reactions
Heat energy is produced in these reactions. Temperature increases.
Heat energy is taken in these reactions so the surroundings cool down. Temperature decreases.
Very few reactions are endothermic
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Bond breaking and bond making
All chemical reactions involve the breaking of bonds between atoms and the forming of new bonds.
Energy is needed to break bonds.
Energy is made when new bonds are formed.
If more energy is made when new bonds are formed than is needed when bonds are broken then the reaction is exothermic.
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Exothermic reaction
Endothermic reaction
Energy needed to break bonds
Energy made when new bonds formed
1000 kJ
1000 kJ5000 kJ
5000 kJ
Example
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H H O O
H H
H H O
OH H
O
H H
O
H H
Water
Hydrogen and oxygen gas
Hydrogen and oxygen atomsE
nerg
y co
nten
t
Time
A certain amount of energy (activation energy) is added to the reactants in order to break the bonds. When new bonds are formed energy is released. Since more energy is made than needed in this reaction, the reaction is exothermic.
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Lesson 8 Relative formula mass
CaCO3
100
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The relative formula mass is the sum of the atomic masses of all the atoms in the chemical formula. Just add up the mass numbers!!
31 + (3 19) = 88
3 fluorine atoms
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Lesson 9 Empirical formulae
CnH2n
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32
64: 4
16
Mass in gramsRelative atomic mass
= 0.5 : 0.25
= 2 1:2 Cu atoms 1 O atom
Divide the mass in grams by the relative atomic mass for each element. Then calculate the simplest ratio of the atoms.
The empirical formulae is the simplest ratio of atoms in the chemical formula of a compound.
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Lesson 10 Quantitative chemistry
Moles = massRAM
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Moles = massRAM
Steps in calculation:
1. Calculate the number of moles of the substance for which you are given the mass data.
2. In the above example, 1 mole of magnesium forms 1 mole of iron. Therefore, 0.5 moles of magnesium produces 0.5 moles of iron.
3. Now that you have the moles of iron, you can calculate the mass produced by multiplying the moles of iron by the relative atomic mass of iron. Mass = 0.5 x 56 = 28 g.
4. The answer is 28 g.
Moles = 12
24= 0.5
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You will have to calculate the RFM for the compounds.
Moles = massRFM
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