Bonding, Structure and the Properties of Matter

Question 1

What are the 3 states of matter?

Answer 1

Solid, Liquid and Gas

Question 2

What are the features of solids and how are the particles arranged in solids?

Answer 2

-Solids are extremely hard to compress, this is because the particles in a solid are packed together in a regular pattern.
-Solids have a fixed shape and they cannot flow from place to place, this is because in a solid the particles can vibrate but they cannot move from place to place.

Question 3

What are the features of liquids and how are the particles arranged in liquids?

Answer 3

-Liquids are extremely hard to compress, that is because the particles are close together with not many spaces between them.
-Liquids take the shape of their container and they can flow from place to place, this is because the particles in a liquid can move.

Question 4

What are the features of gases and how are the particles arranged in gases?

Answer 4

-Gases are extremely easy to compress, that is because particles in gases are widely spaced.
-Gases spread out and fill the space of their container, that is because the particles in a gas move quickly and randomly.

Question 5

How can we change states?

Answer 5

By putting in or taking out energy.

Question 6

What happens when we heat a solid?

Answer 6

-It can change state to a liquid (Melting) and this takes place at the melting point.
-During the state change the particles in a liquid are moving around so they’ve got more kinetic energy than the particles in a solid.
-Which means that we have to put energy in to convert a solid into a liquid.
-This energy is needed to break the forces of attraction between the particles in a solid and once they are broken the particles can now move around.

Question 7

Key Fact:

Answer 7

The stronger the forces of attraction between the particles the more energy we have to put in to break these forces and the higher the melting point.

Question 8

What happens when we cool a liquid?

Answer 8

-It can change state from a liquid to a solid (Freezing), freezing takes place when we cool a liquid back down to its melting point.
-When a substance freezes the forces of attraction between the particles reform.

Question 9

What happens when we heat a liquid?

Answer 9

-It will change state from a liquid into a gas (Boiling), boiling takes place at the boiling point.
-And if there are strong forces of attraction between the particles then the boiling point will be high.
-That is because it takes a lot of energy to break those strong forces of attraction and boil the liquid.

Question 10

What happens when we cool a gas?

Answer 10

-It can change state from a gas into a liquid (Condensing), condensing takes place at the same temperature as boiling (boiling point).
-And when a substance condenses the forces of attraction between the particles reform.

Question 11

Key Facts:

Answer 11

-Elements react in order to achieve a full outer energy level.
-By doing this, they achieve the stable electronic structure of a noble gas.

Question 12

What happens when a Group 1 metal and a Group 7 non-metal react?

Answer 12

Ionic bonding takes place, Group 1 metals lose one electron forming one positive ion, Group 7 non-metals gain one electron forming one negative ion, now both ions have a full outer shell.

Question 13

What happens when a Group 2 metal and a Group 6 non-metal react?

Answer 13

Ionic bonding takes place, Group 2 metals lose two electron forming a 2+ positive ion, Group 6 non-metals gain two electron forming 2- negative ion, now both ions have a full outer shell.

Question 14

What do ionic compounds form?

Answer 14

They form Giant structures called a giant ionic lattice and they are three dimensional structures.

Question 15

What is in a giant ionic lattice?

Answer 15

-In a giant ionic lattice, every positive ion is surrounded by negative ions and every negative ion is surrounded by positive ions.
-There are also strong forces of attraction between the positive and negative ions called electrostatic forces of attraction and are also called ionic bonds.
-These forces hold the positive and negative ions in place.

Question 16

What directions do ionic bonds act in?

Answer 16

All directions

Question 17

What are the properties of Ionic Compounds?

Answer 17

-Ionic compounds have very high melting and boiling points. That is because the strong electrostatic forces of attraction require a great deal of heat energy to break.
-They cannot conduct electricity when they are solids because the ions are locked in place by the strong electrostatic forces of attraction.
-But they can conduct electricity when they are melted or dissolved in water because the ions can now move and carry the electrical charge.

Question 18

What happens when we heat an ionic solid?

Answer 18

The particles vibrate and when the particles vibrate with enough energy the electrostatic forces of attraction break and the solid melts. It also takes a great deal of heat energy for these to break as the electrostatic forces between the ions are very strong.

Question 19

What is covalent bonding?

Answer 19

When non-metal atoms bond together and is a strong bond.

Question 20

How can we show covalent bonding?

Answer 20

Dot and Cross diagrams or Stick diagrams

Question 21

What are the properties of small covalent molecules?

Answer 21

-They have a low melting and boiling point and this means that they are usually gases or liquids at room temperature.
-They do not conduct electricity as they do not have an overall electric charge.

Question 22

Why do small covalent molecules have a low melting and boiling point?

Answer 22

-The atoms in each molecules are held together by strong covalent bonds.
-Secondly there are very weak intermolecular forces between one molecule and another.
-As we increase the temperature the vibration of the molecules increases and at a certain point it will break the weak intermolecular forces holding the molecules to each other.
-At this point the molecules turn to a gas (boil) and the bonds do not take a great deal of energy to break because of the weak intermolecular forces.

Question 23

Why are Giant covalent substances are always solid at room temperature?

Answer 23

Because all giant covalent substances have high melting and boiling points as they have millions of strong covalent bonds and it takes a great deal of energy to break all of the bonds.

Question 24

What is diamond formed by?

Answer 24

Carbon

Question 25

What does diamond consist of?

Answer 25

Huge number of carbon atoms joined by covalent bonds which makes diamond an extremely hard substance.

Question 26

Why does it take a great deal of energy to melt diamond?

Answer 26

We need to break the huge number of covalent bonds in the diamond which makes diamond have a very high melting and boiling point.

Question 27

Why can diamond not conduct electricity?

Answer 27

All of the outer electrons are in covalent bonds which means that diamond has no free electrons to carry electrical charge

Question 28

What is Silicon dioxide formed out of?

Answer 28

Silicon and oxygen covalently bonded together

Question 29

Why does Silicon dioxide have a high melting and boiling point?

Answer 29

Because silicon dioxide has a huge number of strong covalent bonds.

Question 30

What is Graphite formed by?

Answer 30

Carbon, and each carbon atom forms covalent bonds to three other carbon atoms and the carbon atoms form hexagonal rings (six carbon atoms) and are arranged into layers.

Question 31

What are the properties of graphite?

Answer 31

-Soft and Slippery
-Very high melting and boiling point
-Good conductor of electricity and heat

Question 32

Why is Graphite soft and slippery?

Answer 32

There are no covalent bonds between the layers which means the layers can slide over each other.

Question 33

What is graphite used in?

Answer 33

Lubricant in machines reducing friction between the moving parts.

Question 34

Why does graphite have a very high melting and boiling point?

Answer 34

If we want to melt graphite we need to break the covalent bonds which takes a great deal of energy.

Question 35

Why is graphite a good conductor of electricity and heat?

Answer 35

There are delocalised electrons in the graphite can move which means they can conduct both electricity and heat because each carbon atom has one electron in its outer shell which is not affected by the covalent bonds.

Question 36

What is Graphene?

Answer 36

A single layer of graphite and is one atom thick.

Question 37

What are the properties of Graphene?

Answer 37

-Excellent conductor of electricity because it has delocalised electrons.
-Extremely strong

Question 38

What are fullerenes?

Answer 38

Molecules of carbon atoms with hollow shapes and have hexagonal rings of carbon atoms.

Question 39

How many carbon atoms does Buckminsterfullerene have?

Answer 39

60 (C₆₀)

Question 40

What are the uses of fullerenes?

Answer 40

-Pharmaceutical delivery
-Lubricants
-Catalysts

Question 41

What are the properties of Carbon Nanotubes?

Answer 41

-Have high tensile strength (can be stretched without breaking)
-Excellent conductors of heat and electricity

Question 42

What are the uses of Carbon Nanotubes?

Answer 42

Used to reinforce materials e.g. In tennis rackets

Question 43

What is a polymer made up of?

Answer 43

Polymers are made by joining together thousands of small, identical molecules (monomers).

Question 44

What are the properties of Polymers?

Answer 44

-Most polymers are solids at room temperature. That is because the intermolecular forces of attraction between the polymer molecules are relatively strong.
-High melting and boiling point.

Question 45

Why does it take a lot of energy to break down the intermolecular forces between polymer molecules?

Answer 45

Because the intermolecular forces are relatively strong.

Question 46

What do metals consist of?

Answer 46

Giant structure of atoms arranged in regular layers and the electrons in the outer energy level of each atom are delocalised.

Question 47

What is metallic bonding?

Answer 47

A strong electrostatic attraction between the sea of delocalised negative electrons and the positive metal ions. Metallic bonds are strong as well as they are in metals.

Question 48

What are the properties of metals?

Answer 48

-High melting and boiling point
-Excellent conductors of heat and electricity
-Can be bent and shaped

Question 49

Why do metals have a high melting and boiling point?

Answer 49

Because a great deal of energy is required to break the strong metallic bonds.

Question 50

Why are metals excellent conductors of heat and electricity?

Answer 50

Because the delocalised electrons can move and because electrons are charged these moving electrons can carry an electric current and thermal energy which allows metals to conduct heat.

Question 51

Why can metals be bent and shaped?

Answer 51

In metals, the layers of atoms are able to slide over each other.

Question 52

What is an alloy?

Answer 52

Mixture of metals

Question 53

Why are alloys harder than pure metals?

Answer 53

The different sizes of atoms distorts the layers, making it more difficult for them to slide over each other meaning alloys are harder than pure metals.

Question 54

(Triple only) What is the size of a micrometre?

Answer 54

0.001mm or 1 x 10^-6m

Question 55

(Triple only) What is the size of a nanometre?

Answer 55

0.000000001mm or 10^-9m

Question 56

(Triple only) What is a Coarse Particle and what is its diameter?

Answer 56

Coarse particles contain many thousands of atoms and have a diameter of between 1 x 10^-5m and 2.5 x 10^6m.

Question 57

(Triple only) What is a Fine Particle and what is its diameter?

Answer 57

Fine particles contain several thousand atoms and have a diameter of between 100 - 2500 nanometres (1 x 10^-7m and 2.5 x 10^-6).

Question 58

(Triple only) What is a Nano Particle and what is its diameter?

Answer 58

Nanoparticles only contain a few hundred atom and have a diameter between 1 - 100 nanometres.

Question 59

(Triple only) Key fact on Nanoparticles:

Answer 59

As the particle size decreases by ten times, the surface area : volume ration increases by ten times.

Question 60

(Triple only) What is the size of the surface are to volume ratio for nanoparticles? And why do we need a much smaller quantity of nanoparticles compared to martials with normal particle size?

Answer 60

Huge, and even a small amount of nanoparticles has a massive surface area which means we need a much smaller quantity of nanoparticles compared to materials with normal particle size. E.g. a catalyst

Question 61

(Triple only) What are the uses of nanoparticles?

Answer 61

-Medicines
-Sun creams
-Cosmetics
-Deodorants
-Electronics
-Catalysts

Question 62

(Triple only) What are the risks of nanoparticles

Answer 62

-It’s possible that nanoparticles can be absorbed into the body and enter our cells.
-No-one knows the potential long term effects of this
-So its important that nanoparticles are studied and used carefully.

Question 63

What is a problem with dot and cross diagrams?

Answer 63

It does not tell us about the shape of the molecule.

Question 64

What are the problems with stick diagrams?

Answer 64

-Because a covalent bond is shown as a stick we cannot
tell which electron in the bond came from which atom.
-Also stick diagrams give us no idea of outer electrons that are not in bonds.
-And the 2 dimensional stick diagrams do not give us accurate information on the shape of the molecule.

Question 65

Why is the benefit to use a 3 dimensional sick diagram?

Answer 65

It shows us the shape of the molecule

Question 66

What is the benefit of a ball and stick diagram?

Answer 66

It allows us to clearly see the ions in 3 dimensions

Question 67

What is the problem of the ball and stick diagram?

Answer 67

It shows the ions as widely spread when in reality the ions are packed together

Question 68

Why is sometimes better to use a space filling diagram than a ball and stick diagram?

Answer 68

-Because space filling diagrams give us a better idea of how closely packed the ions are.
-However, it can be difficult to see the three dimensional packing with a space filling diagram.

Question 69

What is the problem of the space filling diagram and the ball and stick diagram?

Answer 69

They only show a tiny part of the giant crystal lattice so both these diagrams give a mistaken impression about the sizes of these structures.