Key Terms In Chemistry

Question 1

JJ Thompson’s Plum Pudding Theory

Answer 1

Positively charged sphere

With electrons that are negatively charged atoms

Question 2

Rutherfords Model

Answer 2

Tiny positively charged nucleus at the centre
Surrounded by a cloud of negative electrons
Most of the atom is empty space

Question 3

Gold Leaf Test - Rutherford

Answer 3

Fired positively charged alpha particles at a thin gold sheet.
Most particles went straight through, some were deflected and a small number were backwards- so the plum pudding could not be right

Question 4

Bohr’s Model

Answer 4

Electrons only exist in fixed orbits or shells

Each shell has a fixed energy

Question 5

Protons

• relative mass
• relative charge

Answer 5

Heavy and positively charged
Relative Mass - 1
Relative Charge - +1
Found in the nucleus which is positively charged

Question 6

Neutrons

Answer 6

Heavy
Neutral 
Relative mass - 1
Relative charge - 0
Found in nucleus

Question 7

Electrons

Answer 7

Negative
Relative mass- 0.0005
Relative Charge - -1
Found in electron shells

Question 8

Atomic number

Answer 8

Tells you how many protons and electrons there are in the atom

Question 9

Mass number

Answer 9

Tells you the total number of protons and neutrons in an atom

Question 10

Isotopes

Answer 10

Different forms of the same element, which have the same number of protons but a different number of neutrons.

Question 11

How do you calculate the relative atomic mass from isotopic abundances?

Answer 11

Multiply each relative atomic mass by its isotopic abundance and add up the results
Divide by the sum of the abundance’s

Question 12

How did the order of the periodic table come about?

Answer 12

Dmitri Mendeleev arranged them based on their properties, then realised they were in order of atomic mass

Question 13

What do periods show in the periodic table?

Answer 13

Represent a new full shell of electrons

Question 14

What do groups show on the periodic table?

Answer 14

Corresponds to the number of electrons it has on its outer shell

Question 15

Ions

Answer 15

Ions are charged particles- when atoms lose or gain electrons to form ions

Question 16

When do negative atoms form?

Answer 16

Anions - when atoms gain electrons- they have more electrons than protons so they are negatively charged

Question 17

When do positive ions form?

Answer 17

Cations- when atoms lose electrons - they have more protons than electrons - they are positively charged

Question 18

Group 1 and 2 ions

Answer 18

They are metals so they lose electrons to form positive ions

Question 19

Group 6 and 7 ions

Answer 19

Non metals that gain electrons to form negative ions

Question 20

Ionic bonding

Answer 20

When a metal and non metal react together

• the metal atoms loses electrons to form a positive ion
• the non metal gains these to form a negative ion

Question 21

What are oppositely charged ions attracted to each other by?

Answer 21

They are strongly attracted to one another by electrostatic forces this is called an ionic bond

Question 22

Ionic compound shapes

Answer 22

Always have a giant ionic lattice structures. The ions form a closely packed regular lattice
There are very strong electrostatic forces of attraction between oppositely charged ions in all directions

Question 23

Ionic compound properties

-melting and boiling points

Answer 23

High melting and boiling points due to the strong attraction between the ions. It takes a large amount of energy to overcome this attraction.

Question 24

Ionic compound properties

-conductor of electricity?

Answer 24

Solid ionic compounds don’t conduct electricity because the ions are in a fixed place and can’t move.
But when an ionic compound melts, the ions are free to move and can carry an electric current.

Question 25

Ionic compound properties

- dissolvable?

Answer 25

Many dissolve easily in water. The ions separate and are all free to move in the solution- so they’ll carry and electric current.

Question 26

Advantages of models that show ionic compound structures

Answer 26

2D representations of molecules are simple and great at showing what atoms contain and how they are connected.
Dot and cross diagrams- show how compounds are formed
3D models show the arrangement of ions

Question 27

Disadvantages of models that show the structure of ionic compounds

Answer 27

2D representations don’t show the shape of the substance or the size of atoms
Dot and cross diagrams don’t show the size or how they are arranged
3D models only show the outer layer of the substance

Question 28

Covalent Bonding

Answer 28

Is a strong bond that forms when a pair of electrons is shared between two atoms

Question 29

What are simple molecular substances made up of?

Answer 29

They are made up of molecules containing few atoms joined by covalent bonds

Question 30

Properties of simple molecular substances

• bonds
• forces of attraction

Answer 30

Atoms are held together by very strong covalent bonds

The forces of attraction are very weak

Question 31

Properties of simple molecular substances

• melting and boiling points
• what substance are they at room temperature?

Answer 31

To melt or boil, you only need to break the weak intermolecular forces - melting and boiling points are very low
Most molecular substances are liquid or gas at room temp

Question 32

Properties of simple molecular substances

• the bigger the molecules the…?
• conducts electricity?

Answer 32

As molecules get bigger, the strength of the intermolecular forces increases, so more energy is needed to break them - melting and boiling points increase
-don’t conduct electricity as they don’t contain any free electrons or ions

Question 33

Polymers

How are they formed?

Answer 33

Are molecules made up of long chains of covalently bonded carbon atoms
-they are formed when lots of small molecules called monomers join together

Question 34

Giant covalent structure properties

• bonds
• melting and boiling points

Answer 34

All atoms are bonded together by strong covalent bonds

Very high melting and boiling points as lots of energy is needed to break the covalent bonds

Question 35

Giant covalent structure properties

• conductor of electricity?
• soluble?

Answer 35

Don’t contain charged particles - don’t conduct electricity

Aren’t soluble in water

Question 36

Diamond - giant covalent structure

• how many covalent bonds?
• melting points?

Answer 36

Made up of a network of carbon atoms that each form four covalent bonds
Strong covalent bonds take lots of energy to break- high melting point

Question 37

Diamond - giant covalent structure

• lattice structure
• conductor of electricity?

Answer 37

Strong covalent bonds hold the atoms in a rigid lattice structure- making diamonds really hard
Doesn’t conduct electricity - no free electrons or ions

Question 38

Graphite - Giant covalent structures

• how many covalent bonds?
• how strong are the layers?
• what properties does graphite have?

Answer 38

Each carbon atoms forms three covalent bonds- creating sheets of carbon atoms arranged in hexagons
No covalent bonds between layers- weakly held together so they are free to move over each other
- this makes graphite soft and slippery

Question 39

What is diamond used for?

Answer 39

Used to strengthen cutting tools- as it is really hard as it has a rigid lattice structure

Question 40

What is graphite used for?

Answer 40

Lubricating material as it’s soft and slippery as the layers can move over each other

Question 41

Graphite- giant covalent structures

• melting points
• conductor of electricity?

Answer 41

High melting point - covalent bonds need lots of energy to break
Only three out of carbons four electrons are used in bonds- so each carbon atom has one delocalised electron and can move.
- so it conducts electricity

Question 42

Graphene- giant covalent structure

• what is it?
• how many atoms thick?

Answer 42

A type of fullerene- one layer of graphite
Sheet of carbons are joined to together in hexagons
Sheet is one atom thick- making 2 dimensional

Question 43

Fullerenes

Answer 43

Are molecules of carbon shaped like closed tubes or hollow balls

Question 44

What are fullerenes made up of?

Answer 44

Carbon atoms arranged in hexagons

Question 45

What are fullerenes used for?

Answer 45

Can be used to cage other molecules. Fullerenes structure forms around another atom or molecule which is then trapped inside.
This could be used to deliver a drug directly to cells in the body

Question 46

How could fullerenes large surface area help?

Answer 46

They could help make a great industrial catalysts - individual catalyst molecules could be attached to the fullerenes

Question 47

What is metallic bonding?

Answer 47

Electrons in the outer shell of metal atoms are delocalised. There are strong forces of electrostatic attraction between the positive ions and the shared negative electrons

Question 48

What do the forces of attraction do? Metallic bonding

Answer 48

They hold the atoms together in a regular structure and are known as metallic bonding

Question 49

What are metals physical properties?

-melting and boiling points

Answer 49

Electrostatic forces between the metal ions and delocalised sea of electrons are very strong, so need lots of energy.
High melting and boiling points - metals are generally shiny

Question 50

What are metals physical properties?

-dense?

Answer 50

Metals are more dense as ions in the metallic structure are packed closely together.

Question 51

What are some physical properties of metals?

- malleable?

Answer 51

Malleable - layers of atom in a pure metal can slide over each other- they can be hammered or rolled into small sheets

Question 52

What are some physical properties of metals?

-conductor of electricity and heat?

Answer 52

The delocalised electrons carry electrical current and thermal energy through the material- so metals are good conductors of heat and electricity

Question 53

Dot and cross diagram

Answer 53

Is used to explain what happens when a bond is formed. It uses dots and crosses to represent the electrons in different atoms

Question 54

Properties of simple molecular structures - covalent

Answer 54

Simple molecules
Low melting and boiling points
Some are soluble
Don’t conduct electricity

Question 55

Monomers

Answer 55

Small , simple molecules that can be joined to make polymers

Question 56

Properties of monomers

Answer 56

Small chain
Small forces
Low energy
Low melting points

Question 57

Properties of polymers

Answer 57

More forces
Long chain
More energy
High melting points

Question 58

Allotropes

Answer 58

Are different structural forms of the same element

Question 59

Properties of non metals

Answer 59

Insulators
Liquids, gas and solids
Low and high melting points
Brittle

Question 60

Why are metals malleable?

Answer 60

Force is applied to metals, the regularly arranged ions are free to move over one another. Ions are still held together by delocalised electrons so they do not break

Question 61

Why do metals conduct electricity?

Answer 61

The delocalised electrons are free to move. This means when a potential difference is applied, the electrons flow in one direction.

Question 62

Symbol equations must always be…

Answer 62

Balanced and there must always be the same number of atoms of each element on both sides of the equation.

Question 63

State symbol (s)

Answer 63

Solid

Question 64

State symbol (l)

Answer 64

Liquid

Question 65

State symbol (g)

Answer 65

Gas

Question 66

State symbol (aq)

Answer 66

Aqueous

Question 67

What does aqueous mean?

Answer 67

Dissolved in water

Question 68

Formula for water

Answer 68

H20

Question 69

Formula for carbon dioxide

Answer 69

CO2

Question 70

Formula for ammonia

Answer 70

NH3

Question 71

Formula for hydrogen

Answer 71

H2

Question 72

Formula for chlorine

Answer 72

Cl2

Question 73

Formula for oxygen

Answer 73

O2

Question 74

Formula for ion ammonia

Answer 74

NH+

4

Question 75

Formula for hydroxide ion

Answer 75

OH-

Question 76

Formula for ion nitrate

Answer 76

NO-

3

Question 77

Formula for carbonate ion

Answer 77

CO. 2-

3

Question 78

Formula for sulfate ion

Answer 78

SO. 2-

4

Question 79

Ionic equations method

Answer 79

Look at the balanced equation
Any ions or aqueous things break up into ions
Take out any aqueous ions that are present on both sides of the equation

Question 80

Oxidising

Answer 80

Provides oxygen which allows other materials to burn more fiercely

Question 81

Environmental hazard

Answer 81

Harmful to organisms and the environment

Question 82

Toxic

Answer 82

Can cause death if swallowed, breathes in or absorbed by skin

Question 83

Harmful

Answer 83

Can cause irritation, reddening of the skin and blistering

Question 84

Flammable

Answer 84

Catches fire easily

Question 85

Corrosive

Answer 85

Destroys materials inc,using living tissues

Question 86

Steps for risk assessment questions

Answer 86

State the hazard symbol each chemical is
Explain what it means
Explains ways to reduce risk

Question 87

What was different about how Mendeleev thought he arranged the periodic table?

Answer 87

He thought he has arranged elements in order of increasing relative atomic mass but this was not always true because of the relative abundance’s of isotopes of some pairs of elements in the periodic table

Question 88

What are elements in the same columns?

Answer 88

Similar properties

Question 89

What are elements placed in rows?

Answer 89

In atomic order