TOPIC 1 - ATOMIC STRUCTURE AND THE PERIODIC TABLE

Question 1

What is covalent bonding?

Answer 1

Each atom shares an electron with another atom.

Question 2

What is ionic bonding?

Answer 2

Ions are strongly attached to each other. Opposite charges.

Question 3

What is the symbol for sodium chloride?

Answer 3

NaCl

Question 4

What is the symbol for hydrochloric acid?

Answer 4

HCl

Question 5

What is the symbol for sulphuric acid?

Answer 5

H2SO4

Question 6

How do you do paper chromatography?

Answer 6

Draw a line near the bottom of a sheet of filter paper (use a pencil)
Add a spot of ink to the line and place the sheet in a beaker of solvent eg water
Make sure the ink isn’t touching the solvent
Place a lid on top to prevent evaporation
Each different dye will move up the paper at a different Faye so the dyes will separate out. Each dye will form a spot in a different place.
The end result is a pattern of spots called a chromatogram.

Question 7

What is filtration used for?

Answer 7

To separate insoluble solids from liquids.

Filter paper is folded into a cone shape - the solid is left in the filter paper.

Question 8

What methods can be used to separate soluble solids from liquids?

Answer 8

Evaporation

Crystallisation

Question 9

What is evaporation?

Answer 9

Pour the solution into an evaporating dish.
Slowly heat the solution. The solvent will evaporate and the solution will get more concentrated. Eventually, crystals will start to form. Keep heating the evaporating dish until all you have left are dry crystals.
(Can only be used if the salt doesn’t decompose when heated - otherwise you have to use crystallisation)

Question 10

What is crystallisation?

Answer 10

Pour the solution into an evaporating dish and gently heat the solution. Some of the solvent will evaporate and the solution will get more concentrated.
Once some of the solvent has evaporated, or when you see crystals start to form (the point of crystallisation), remove the dish from the heat and leave the solution to cool.
The salt should start to form crystals as it becomes insoluble in the cold, highly concentrated solution.
Filter the crystals out of the solution, and leave them in a warm place to dry. You could use a drying oven or a desiccator.

Question 11

How can you separate rock salt?

Answer 11

Filtration and crystallisation
Grind the mixture to make sure the salt crystals are small, so will dissolve easily. Put the mixture in water and stir. The salt will dissolve, but the sand won’t. Filter the mixture - the grains of sand won’t fit through the tiny holes in the filter paper, so they collect on the paper instead. The salt passes through the filter paper as its part of the solution. Evaporate the water from the salt so that it forms dry crystals.

Question 12

What is distillation?

Answer 12

Used to separate mixtures which contain liquids.

Question 13

What is simple distillation?

Answer 13

Used for separating out a liquid from a solution. The solution is heated. The part of the solution that has the lowest boiling point evaporates first. The vapour is then cooled, condenses (turns back into a liquid) and is collected.
The rest of the solution is left behind in the flask. This can be used to get pure water from sea water.

The problem is that it can only be used if there are very different boiling points. Fractional distillation can be used if the boiling points are similar.

Question 14

What is fractional distillation?

Answer 14

You put the mixture in a flask and stick a fractionating column on top. Then you heat it. The different liquids all have different boiling points - so they evaporate at different temperates. the liquid with the lowest boiling point evaporates first. When the temperature on the thermometer matches the boiling point of the liquid, it will reach the top of the column. Liquids with high boiling points might also start to evaporate. But the column is cooler at the top so will only get part of the way up before condensing and running back down towards the flask. When the first liquid has been collected, you raise the temperature until the next one reaches the top.

Question 15

What did JJ Thompson say about the atom?

Answer 15

‘Plum pudding model’ containing negatively charged electrons.

Question 16

What did Rutherford say about the plum pudding model?

Answer 16

Conducted the alpha particle scattering experiment. They fired positively charged alpha particles at an extremely thin sheet of gold. Because the the previous plum pudding model they expected the particles to pass star ugh the through or be slightly deflected at most. This is because the positive charge of each atom was thought to be very spread out. However, while some particles did go straight through, some were deflected more than expected. Some were even deflected straight backwards. This proves that the plum pudding model couldn’t be right. He came up with the NUCLEAR MODEL. In this there is a tiny positively charged nucleus at the centre of the atom, where most of the mass is concentrated. A ‘cloud’ of negatively charged electrons surround this nucleus. So most of the atom is empty space. When the alpha particles came near the concentrated positive charge of the nuclear they were deflected. If they were fired directly at the nucleus they were deflected backwards. Otherwise, they passed through the empty space.

Question 17

What was Bohr’s nuclear model?

Answer 17

Suggested that all the electrons were contained in shells. He proposed that electrons orbit the nucleus in fixed shells and aren’t anywhere in between. Each shell is a fixed distance from the nucleus.

Question 18

What further experiments show the existence of electrons?

Answer 18

Rutherford showed that the nucleus can be divided into smaller particles, which each have the same charge as a hydrogen nucleus. These particles were named protons.
James Chadwick carries out an experiment which provided evidence for neutral particles in the nucleus which are now called neutrons.

Question 19

What are the electron shell rules?

Answer 19

Also known as energy levels.
The lowest energy levels are always filled first. These are the ones closets to the nucleus.
The order is 2,8,8
Atoms that have full electron shells are known as noble gases (group 0)
In most atoms, the outer shell is not full and this makes the atom want to react and fill it.

Question 20

How was the periodic table arranged in the early 1800s?

Answer 20

By atomic mass
From this, a periodic pattern was noticed. However, some elements were placed in the wrong group because they were placed in order of relative atomic mass and did not take into account their properties.

Question 21

How did Dmitri Mendeleev change the periodic table?

Answer 21

He took 50 known elements and arranged them in into his periodic table of elements - with various gaps as show. He put them mainly in order of atomic mass but did switch that order of the properties meant it should be changed. He left gaps for undiscovered elements. When they were found and fitted the pattern it helped confirm his ideas. The discovery of elements confirmed that Mendeleev was correct to not place elements in a strict order of atomic mass.

Question 22

How is the current periodic table arranged?

Answer 22

Elements are arranged in increasing atomic (proton) number. Arranging elements like this meant that there are repeating patterns in the properties of the elements.
Metals are on the left and non-metals are on the right.
Elements with similar properties are in columns, called groups.
The group number tells you how many electrons the elements have in their outer shell eg group 1 has one electron in the outer shell.

Question 23

How does the relativity change in group 1?

Answer 23

The elements react more vigorously as you go down the group.

Question 24

How does the reactivity change in group 7?

Answer 24

Reactivity decreases as you go down the group.

Question 25

What do metals form when they react?

Answer 25

Positive ions

Question 26

What might affect the ability to lose electrons?

Answer 26

If there are few electrons to remove
If the electrons are far away from the nucleus so there is a weaker attraction.
Metals find it easier to lose electrons bc of their position on the periodic table.

Question 27

What are the physical properties of metals?

Answer 27

Strong
Malleable (can be bent or hammered into different shapes).
Conductors of heat and electricity
Hugh boiling and melting points.

Question 28

What are some properties of non-metals?

Answer 28

Dull looking 
More brittle
Aren’t always solids at room temperature 
Lower density 
Don’t usually conduct electricity.

Question 29

What are some properties of transition metals?

Answer 29

More than one ion
Coloured
Compounds that contain them are coloured
Make good catalysts eg nickel

Question 30

Talk about group 0 elements.

Answer 30

The noble gases
They all have 8 electrons in their outer energy levels (apart from helium) which means they have a full outer shell. This means they are energetically stable so they don’t need to gain or lose electrons. Therefore, they don’t react much at all.
They exist as monatomic gases - single atoms not bonded together.
Colourless gases at room temperature
Nom-flammable

Question 31

What are the patterns of the noble gases?

Answer 31

The boiling points increase as you go down the group. This is due to the increase in number of electrons in each atom leading to greater intermolecular forces.

Question 32

Talk about group 1 elements?

Answer 32

Only have one electron in their outer shell which makes them have similar properties.
They are all soft and have a low density.

KNOWN AS THE ALKALI METALS

Question 33

What are the trends of group 1 elements?

Answer 33

Increase reactivity as you go down group one because the outer electron is more easily lost ( attraction between the nucleus and electron decreases because the electron is further away from the nucleus)
Decrease in melting and boiling points as you go down the group.
Higher relative atomic mass as you go down the group.

Question 34

What do alkali metals form with non-metals?

Answer 34

Ionic compounds.

Question 35

What happens when group 1 elements (alkali metals) react with water?

Answer 35

They react vigorously in water producing hydrogen gas and metal hydroxide.

Question 36

What happens when group 1 elements (alkali metals) react with chlorine?

Answer 36

React vigorously when heated in chlorine gas to form while chloride salts.

Question 37

What happens when group 1 elements (alkali metals)react with oxygen?

Answer 37

Form metal oxide. Different types of oxide will form depending on the group 1 metal.
Eg lithium reacts to form lithium oxide.

Question 38

What are the properties of group 1 metals?

Answer 38

More reactive than transition metals.

Much less dense, strong and hard than the transition metals. Much lower melting points.

Question 39

Talk about group 7 elements.

Answer 39

Known as the halogens.

They are all non-metals with coloured vapours.

Question 40

What trends are there for the group 7 elements (halogens)?

Answer 40

Less reactive as you go down the group (harder to gain an electron, because the outer shell’s further from the nucleus.
Higher melting and boiling points as you go down the group.
Higher relative atomic masses as you go down the group.

Question 41

What can halogens form?

Answer 41

Molecular compounds.

They can share electrons via covalent bonding with other non-metals to have a full outer-shell.

Question 42

What can halogens form with metals?

Answer 42

Ionic bonds.

The halogens form 1- ions called halides when they bond with metals. The compounds that form have ionic structures.

Question 43

What is a reduction reaction?

Answer 43

A reaction that separates a metal from its oxide.

Question 44

What process is an example of oxidation?

Answer 44

Reacting with oxygen to form oxides.

Question 45

What is oxidation?

Answer 45

Gain of oxygen

Eg magnesium is oxidised to make magnesium oxide.

Question 46

What is reduction?

Answer 46

Loss of oxygen.

Eg copper oxide is reduced to copper.

Question 47

What is the law of conservation of mass?

Answer 47

The total mass of products formed in a reaction is equal to the total mass of the reactants.