C1 - Atomic Structure & the Periodic Table

Question 1

What is the definition of an element? Give an example

Answer 1

Elements are made from one type of atom (eg. sodium)

Question 2

What is the definition of a compound? Give an example

Answer 2

Compounds are two or more different elements chemically bonded (eg. sodium chloride)

Question 3

What is the definition of a mixture? Give an example

Answer 3

Mixtures are two or more elements or compounds not chemically bonded (eg. air)

Question 4

Name the 3 subatomic particles

Answer 4

Protons, electrons and neutrons

Question 5

Which particles are found in the nucleus?

Answer 5

Protons and neutrons

Question 6

Which particle orbits the nucleus on shells?

Answer 6

Electrons

Question 7

What is the charge of an electron?

Answer 7

-1, negative

Question 8

What is the charge of a neutron?

Answer 8

0, neutral

Question 9

What is the charge of a proton?

Answer 9

+1, positive

Question 10

What is the overall charge of an atom? Why?

Answer 10

Neutral - there are the same number of electrons and protons (they cancel each other out)

Question 11

How do you work out the number of protons in an atom?

Answer 11

Use the atomic number

Question 12

How do you work out the number of electrons in an atom?

Answer 12

Use the atomic number

Question 13

How do you work out the number of neutrons in an atom?

Answer 13

Atomic mass number - atomic number

Question 14

Which subatomic particle decides what the element is?

Answer 14

The number of protons

Question 15

What did the plum pudding model suggest the atom was like?

Answer 15

A ball of positive charge with negatively charged electrons scattered in it

Question 16

What did Rutherford (nuclear) model think the atom looked like?

Answer 16

Positively charged nucleus (small) with electrons surrounding the nucleus

Question 17

What did Bohr discovery about the atom?

Answer 17

He discovered that electrons went around in shells

Question 18

State the size of the nucleus

Answer 18

1 x 10-14m

Question 19

State the size of the atom

Answer 19

1 x 10-10m

Question 20

What is an isotope?

Answer 20

An element with the same number of protons and electrons but different numbers of neutrons

Question 21

How are elements organised in the modern periodic table?

Answer 21

According to atomic / proton number

Question 22

How were elements ordered in the early periodic table?

Answer 22

According to atomic weight

Question 23

What were the main issues with the early periodic table?

Answer 23

• It had no gaps for undiscovered elements

- Some elements were placed in groups with elements that had very different properties

Question 24

How are elements in the modern periodic table grouped?

Answer 24

They are grouped according to their properties

Question 25

Where are metals found on the periodic table?

Answer 25

Left and bottom

Question 26

What is group 1 called?

Answer 26

Alkali metals

Question 27

What is group 7 called?

Answer 27

Halogens

Question 28

What is group 0/8 called?

Answer 28

Noble gases

Question 29

How many electrons can go on each shell?

Answer 29

1st - 2, 2nd - 8, 3rd - 8, 4th- 18

Question 30

How are group number and outer electrons number related?

Answer 30

Group number = number of electron on outer shell

Question 31

How are period number and shell number related?

Answer 31

Period number = number of shells

Question 32

What are the properties of group 1 metals?

Answer 32

• Conduct electricity, can be cut
• React with water and oxygen
• Low density

Question 33

How does the reactivity of group 1 elements change down the group?

Answer 33

They get more reactive

Question 34

Complete the equation:

metal + water > … + …

Answer 34

Metal + water = metal hydroxide + hydrogen

Question 35

What is the test for hydrogen?

Answer 35

Squeaky pop

Question 36

How do I test that metal hydroxides are alkali?

Answer 36

Add universal indicator - it will turn purple

Question 37

Complete the equation:

Metal + oxygen > ……

Answer 37

Metal + oxygen > metal oxide

Question 38

What is the formula for chlorine?

Answer 38

Cl2 (diatomic)

Question 39

What is the formula for fluorine?

Answer 39

F2 (diatomic)

Question 40

What is the colour and state of fluorine at room temperature?

Answer 40

Yellow / green gas

Question 41

What is the colour and state of chlorine at room temperature?

Answer 41

Green gas

Question 42

What is the colour and state of bromine at room temperature?

Answer 42

Brown liquid

Question 43

What is the state symbol for a gas, liquid and a solid?

Answer 43

(s), (l), (g)

Question 44

Name some properties of noble gases

Answer 44

Low melting points, unreactive

Question 45

Why are noble gases unreactive?

Answer 45

They have a full outer shell

Question 46

What is the easiest way to identify whether something is a element?

Answer 46

Look in the periodic table

Question 47

What is a molecule?

Answer 47

Two or more atoms chemically bonded

Question 48

What is the mass of a proton?

Answer 48

1

Question 49

What is the mass of a neutron?

Answer 49

1

Question 50

What is the mass of a electron?

Answer 50

0

Question 51

What did Thompson (plum pudding model) suggest the atom was like?

Answer 51

A ball of positive charge with negative electrons scattered in it

Question 52

Rutherford realised that the plum pudding model was wrong.

What was Rutherford’s model of the atom like?

What did he call his model of the atom?

Answer 52

Rutherford thought the atom was made of a tiny positively charged nucleus, surrounded by scattered electrons.

He called it ‘the nuclear model’

Question 53

How did Bohr improve Rutherford’s nuclear model of the atom?

Answer 53

Bohr realised that electrons orbit the nucleus on shells

Question 54

How big is the nucleus of an atom compared to the whole atom?

Answer 54

The nucleus of the atom is 1/10,000 of the size of an atom

Question 55

Where is most of the mass of the atom found?

Answer 55

In the nucleus, because this is where protons and neutrons are found

Question 56

How did Mendeleev organise the elements in his periodic table?

Answer 56

Mainly order of relative atomic mass but he changed the order slightly to put elements with similar properties in the same group

Question 57

What unusual step did Mendeleev take to make this possible?

Answer 57

He left gaps in his periodic table

Question 58

How did the gaps in Mendeleev’s periodic table hep to prove his ideas?

Answer 58

Elements were discovered that fitted the gaps and had similar properties to the other elements in the same group
(For example, gallium fitted in a gap in group 3 and it had similar properties to aluminium)

Question 59

What do elements in the same group of the periodic table have in common?

Answer 59

• The same number of electrons in their outer shell (e.g group 1 elements have 1 electron in their outer shell)
• Similar properties (e.g all group 1 elements react with water producing hydrogen and metal hydroxides)

Question 60

Where are nonmetals found in the periodic table?

Answer 60

On the right and towards the top

Question 61

What properties do most metals have in common?

Answer 61

• They are strong
• They can be bent or hammered into shape (Malleable)
• They are good at conducting heat and electricity.
• They have high melting and boiling points

Question 62

What properties do most nonmetals have in common?

Answer 62

• They are brittle
• Dull looking
• Often liquids or gases at room temperature.
• Poor conductors

Question 63

What do we call the metals in the middle of the periodic table?

Answer 63

Transition metals

Question 64

Is hydrogen a metal or nonmetal?

Answer 64

Nonmetal

Question 65

What do we call atoms that have lost or gained electrons and so have a positive or negative charge?

Answer 65

Ions

Question 66

If two elements are in the same group in the periodic table, what does this tell you about them?

Answer 66

• That they have the same number of electrons in their outer shell (e.g all group 1 element have 1 electron in their outer shell).
• That they have similar properties

Question 67

What charge do group 1 ions have (e.g sodium ions)?

Answer 67

+1

Question 68

What happens when group 1 elements react with water?

Answer 68

• They float and move around on the surface fizzing.
• Hydrogen (which may burst into flame) is made.
  Metal hydroxides (e.g sodium hydroxide) are made. These dissolve in the water making alkaline solutions.
• sodium + water → sodium hydroxide + hydrogen
• 2Na (s) + 2H2O (l) →2NaOH (aq) + H2 (g)

Question 69

Lithium + oxygen→……

Answer 69

Lithium + oxygen →lithium oxide

Question 70

Sodium + oxygen →……

Answer 70

Sodium + oxygen →sodium oxide (+ sodium peroxide)

Question 71

Sodium + chlorine →……

Answer 71

Sodium + chlorine→sodium chloride

Question 72

Potassium + chlorine →……

Answer 72

Potassium + chlorine→potassium chloride

Question 73

Explain why the group 1 elements (alkali metals) get more reactive as you go down the group.

Answer 73

The outer electron is further from the nucleus
There is a weaker (electrostatic) attraction between the nucleus and outer electron.
It is easier to lose the outer electron

Question 74

Compare the properties of group 1 metals and transition metals

Answer 74

• Group 1 are more reactive
• Alkali metals have much lower boiling points
• Transition metals are more dense, strong and hard
• Transition metals have much higher melting point

Question 75

Fluorine and chlorine are both in group 7 of the periodic table, how many electrons do they have in their outer shell?

Answer 75

7

Question 76

Group 7 elements form diatomic molecules. What are diatomic molecules?

Answer 76

Molecules made from two atoms bonded together

Question 77

How does the reactivity of group 7 elements (halogens) change as you go down the group?

Answer 77

They get less reactive as you go down the group

Question 78

Complete the equation below and explain why this happens:

Chlorine + sodium bromide→……

Answer 78

Chlorine displaces bromine, because it is more reactive than bromine.

Chlorine + sodium bromide →sodium chloride and bromine

Question 79

What is oxidised (loses electrons) and what is reduced (gains electrons) in this reaction.

Answer 79

• Chlorine atoms are reduced (gain electrons) forming chloride ions.
• Bromide ions are oxidised (lose electrons) forming bromine molecules

Question 80

Explain why the group 7 elements (halogens) get less reactive as you go down the group.

Answer 80

• The outer shell is further from the nucleus.
• The (electrostatic) attraction between the nucleus and outer shell/electrons is weaker.
• It’s more difficult to attract electrons to the outer shell

Question 81

How many electrons do the group 0 elements (noble gases) have in their outer shell?

Answer 81

8, except helium which has 2 electrons in its outer shell

Question 82

Why are group 0 elements unreactive?

Answer 82

• They have full outer shells of electrons.

- They have a stable arrangement of electrons so they don’t need to gain/lose or borrow electrons from other atoms

Question 83

What is the state and colour of group 0 elements at room temperature?

Answer 83

They are all colourless gases

Question 84

Why does the boiling point of group 1 elements increase as you go down the group?

Answer 84

• The atoms have more electrons.
• There are stronger forces of (electrostatic) attraction between the atoms.
• It takes more energy to break these forces

Question 85

Which elements form diatomic molecules (molecules made from two atoms joined together)?

Answer 85

• Oxygen (O2)
• Hydrogen (H2)
• Nitrogen (N2)
• Group 7 elements:
  
  • Fluorine F2
  • Chlorine Cl2
  • Bromine Br2
  • Iodine I2

Question 86

A nanometer is one ___th of a metre

Answer 86

Billionth

Question 87

What is one nanometer in standard form?

Answer 87

1x10-9m

Question 88

How many different elements are there?

Answer 88

118

Question 89

What is relative atomic mass and why is it used?

Answer 89

Because many elements can exist as different isotopes, RAM is used as a mass number. It is an average, taking into account the different masses and their abundance

Question 90

What formula is used to calculate the RAM of an element?

Answer 90

Sum of all the elements’ masses in a compound, mixture etc.

Question 91

Chromatography is used to separate different dyes within an ink. Explain how a chromatography experiment is set up.

Answer 91

1. Draw a line near the bottom of a sheet of filter paper in pencil (since it’s insoluble).
2. Add a spot of ink to this line.
3. Place the sheet in a beaker of solvent (e.g. water - depends on what’s being tested), making sure the ink doesn’t touch the solvent.
4. Put a lid on the container to stop the solvent evaporating

Question 92

Explain what happens during chromatography

Answer 92

• The mobile phase (solvent) seeps up the paper, carrying the ink with it.
• Each dye within the ink moves up the paper at a different rate; the dyes separate out into spots.
  If any of the dyes are insoluble, they stay on the stationary phase (pencil line).
• When the solvent has nearly reached the top, the paper is taken out and allowed to dry; the result is a chromatogram

Question 93

What are the mobile and stationary phases in chromatography?

Answer 93

• Mobile phase = solvent (because it moves up the paper).

- Stationary phase = pencil line (it doesn’t move)

Question 94

How would you separate an insoluble solid from a liquid?

Answer 94

Filtration

Question 95

How would you separate a soluble salt from a liquid? Give 2 ways.

Answer 95

• Evaporation: heating the solution, in an evaporating dish, over a bunsen burner. However, this can only be used if the salt doesn’t thermally decompose. If it does:
• Crystallisation: gently heating the solution until crystals start to form, then leaving it to cool. More crystals will form, which are filtered out of the solution and left in a warm place to dry

Question 96

How would you separate out rock salt (a mixture of salt and sand)?

Answer 96

• Grind it to make the salt crystals small (so that they dissolve easily).
• Put it in water and heat; salt will dissolve but sand won’t.
• Filter out the sand.
• Evaporate the water from the salt, so that it forms dry crystals

Question 97

What is simple distillation used for?

Answer 97

Separating out a liquid from a solution

Question 98

How does simple distillation separate out a liquid from a solution?

Answer 98

• Solution is heated.
• The part of the solution with the lowest boiling point evaporates first.
• The vapour is cooled in a condenser, then collected in a beaker at the end of the condenser.
• The rest of the solution remains in the flask

Question 99

What is the problem with simple distillation?

Answer 99

You can only use it to separate liquids with very different boiling points

Question 100

What is fractional distillation used for?

Answer 100

Separating out liquids, from a mixture, with close boiling points

Question 101

How does fractional distillation work?

Answer 101

1. Heat the mixture in the flask
2. The liquid with the lowest boiling point evaporates first.
3. When the thermometer’s temperature reaches the boiling point of this liquid, it reaches the top of the column, condenses, and is collected.
4. Other liquids may start to evaporate, but will condense part of the way up the column (bc it’s cooler towards the top).
5. Once the first liquid’s collected, the temperature is raised until the next one reaches the top of the column. Etc.

Question 102

What was Dalton’s model of the atom?

Answer 102

Atoms were solid, indivisible spheres. Each element was made of a different type of sphere

Question 103

What was Thomson’s model of the atom?

Answer 103

He discovered electrons which could be removed from atoms, disproving Dalton’s theory of indivisibility.

Thomson suggested atoms were spheres of positive charge, with negative electrons scattered throughout (plum pudding model)

Question 104

What was Rutherford’s model of the atom?

Answer 104

Positively charged nucleus, surrounded by a cloud of negative electrons. This was the first nuclear model of the atom

Question 105

What discovery did Bohr make? How was he proven right?

Answer 105

Electrons orbit the nucleus in fixed positions, called energy levels.

His theoretical calculations agreed with experimental data

Question 106

What discovery was made after electron orbits?

Answer 106

Experiments showed that the nucleus’ positive charge was subdivided between a group of particles, called protons

Question 107

What discovery did Chadwick make? Why did this make sense?

Answer 107

He proved the existence of neutrons in the nucleus. This explained the imbalance between the atomic and mass numbers

Question 108

Who theorised that atoms were solid, indivisible spheres?

Answer 108

Dalton

Question 109

Who theorised the plum pudding model?

Answer 109

Thompson

Question 110

Whose discoveries led to the nuclear model of the atom?

Answer 110

Rutherford

Question 111

Who calculated that electrons had fixed orbits?

Answer 111

Bohr

Question 112

Who discovered neutrons?

Answer 112

Chadwick

Question 113

How was Rutherford’s alpha scattering experiment conducted?

Answer 113

Scientists in Rutherford’s lab fired a beam of alpha particles at a thin sheet of gold foil

Question 114

In Rutherford’s alpha scattering experiment, what did the scientists expect to happen and why?

Answer 114

From the plum pudding model, they expected particles to pass straight through the gold foil, or only be slightly deflected

Question 115

What were the results of Rutherford’s alpha scattering experiment? Why wasn’t this as expected?

Answer 115

The majority of the alpha particles went straight through the gold sheet. However, some were deflected more than expected and a few were deflected right back the way they came. The plum pudding model couldn’t explain this

Question 116

In Rutherford’s alpha scattering experiment, a few alpha particles were deflected back. What did the scientists deduce from this?

Answer 116

They realised that most of the atom’s mass was concentrated in a central nucleus, which must also have a positive charge, since it repelled the positive alpha particles

Question 117

In Rutherford’s alpha scattering experiment, most of the alpha particles passed straight through. What did the scientists deduce from this?

Answer 117

They realised that most of the atom is just empty space, and that the nucleus is very small relative to this space

Question 118

What was deduced from the results of Rutherford’s alpha scattering experiment?

Answer 118

1. Because a few alpha particles were deflected back, they realised that most of the atom’s mass was concentrated in a central nucleus, which must also have a positive charge, since it repelled the positive alpha particles.
2. Because most of the alpha particles passed straight through, they realised that most of the atom is just empty space, and that the nucleus is very small relative to this space

Question 119

How were elements organised in the early periodic table, and what was the problem with this?

Answer 119

Elements were organised according to their relative atomic masses.

The table wasn’t complete, and some elements were placed in the wrong group because the ordering didn’t take into account their properties

Question 120

How was Mendeleev’s periodic table different to - and better than - the early versions of the periodic table?

Answer 120

• He organised elements mainly in order of atomic mass, but also taking into account their properties.
• The discovery of isotopes showed he was right to do this.
• He left gaps which predicted the existence of undiscovered elements, allowing him to predict their properties.
• The discovery of certain elements that fit this pattern confirmed his ideas, for example, he left a gap for an element with similar properties to aluminium.
• Gallium was discovered, and it showed these properties

Question 121

Transition metals are found in the middle of the periodic table. Give 7 properties of transition metals

Answer 121

• Good conductors of electricity + heat
• Strong
• Dense
• Shiny
• Can form more than one ion
• Colourful
• Transition metal compounds often make good catalysts

Question 122

What are the trends in properties of alkali metals as you go down the group?

Answer 122

Increasing reactivity
Decreasing melting + boiling points
Increasing relative atomic mass

Question 123

Alkali metals only ever form ionic compounds. What are these compounds usually like?

Answer 123

White solids that dissolve in water to form colourless solutions

Question 124

Explain why sodium is more reactive than lithium

Answer 124

• Sodium is further down group 1 than lithium.
• Group 1 ions lose one electron to become stable.
• Sodium’s outer electron is further from the nucleus that lithium’s.
• So the electrostatic attraction between the electron and nucleus is weaker
• So the electron is more easily released.
• So sodium is more reactive

Question 125

Compare the reactions of lithium and potassium with water. Describe what would be observed in each reaction and explain the similarities and differences [6 marks]

Answer 125

• A vigorous reaction would be observed with both metals
• The reaction with potassium would be more vigorous as it is more reactive than lithium
• This is because the outer electron of potassium is further from its nucleus and therefore more easily lost
• Both metals would float, as they are less dense than water.
• Both metals will fizz, producing bubbles of hydrogen gas
• The reaction with potassium would produce more hydrogen bubbles, as potassium is more reactive
• The reaction with potassium would release more energy, to the extent that the potassium and hydrogen could ignite

Question 126

Compare the properties of transition and alkali metals

Answer 126

Alkali metals are much more reactive.
Transition metals are stronger, denser and harder.
Alkali metals have much lower boiling points.

Question 127

How do alkali metals react with water?

Answer 127

• They react vigorously to produce hydrogen gas and metal hydroxides
• The violence of reactivity (and energy released from the reaction) increases as you go down the group

Question 128

How do alkali metals react with chlorine?

Answer 128

• When heated in chlorine gas, they form white metal chloride salts
• The reaction gets more vigorous as you go down the group

Question 129

How do alkali metals react with oxygen?

Answer 129

They react with oxygen to form metal oxides (which is why they tarnish in the air), different types of oxide forming depending on the metal:

Lithium → lithium oxide.

Sodium → mixture of sodium oxide and sodium peroxide

Potassium → mixture of potassium peroxide and potassium superoxide

Question 130

What are the trends in properties of the halogens as you go down the group?

Answer 130

• Decreasing reactivity
• Increasing melting + boiling points
• Increasing relative atomic masses

Question 131

Give 3 properties of the halogens

Answer 131

Form diatomic molecules
Bond ionically w/ metals
Bond covalently to form simple molecular compounds
A more reactive halogen will displace a less reactive one from an aqueous solution of its salt

Question 132

What is the colour and state of fluorine at room temperature? Give 2 of its properties

Answer 132

• Very reactive and poisonous

- Yellow gas

Question 133

What is the colour and state of chlorine at room temperature? Give 3 of its properties

Answer 133

• Green gas.

- Fairly reactive, poisonous, dense

Question 134

What is the colour and state of bromine at room temperature? Give 3 of its properties

Answer 134

• Red-brown liquid

- Poisonous, dense, volatile

Question 135

What is the colour and state of iodine at room temperature? What does its gas look like?

Answer 135

• Dark grey, crystalline solid

- Purple gas

Question 136

A chemist places a glass lid over a beaker containing aqueous iodine. She places an ice cube on top of the lid and then gently heats the solution. Predict and explain her observations

Answer 136

A purple vapour will form over the solution as the iodine evaporates.

Purple/grey crystals will form on the lid as the iodine deposits/crystallises/solidifies

Question 137

Give 4 properties of noble gases

Answer 137

Inert
Non-flammable (bc of above)
Exist as monatomic gases
All colourless gases at room temperature

Question 138

Why are the noble gases inert?

Answer 138

They have full outer shells which are energetically stable. They therefore don’t need to react to gain or lose electrons to become stable

Question 139

What are the trends in properties of the noble gases as you go down the group?

Answer 139

• Increasing boiling points (greater no. electrons in each element leads to greater intermolecular forces
• Increasing relative atomic mass

Question 140

If isotopes have different numbers of neutrons how else must they also be different?

Answer 140

They must have different atomic masses.