Chapter C3 Structure And Bonding

Question 1

What’s the the states of matter?

Answer 1

Solid
Liquid
Gas

Question 2

Properties of a solid

Answer 2

Fixed shape and volume

Cannot be compressed

Question 3

Properties of a liquid

Answer 3

Liquids have a fixed volume but can flow and change their shape
Cannot be compressed

Question 4

Properties of gases

Answer 4

Gases have no fixed shape or volume

Can be easily compressed

Question 5

What is the pressure from a gas caused by?

Answer 5

Particles colliding with the edge of the container

Question 6

How does a solid go to liquid?

Answer 6

Melting

Question 7

How does a liquid go to a solid?

Answer 7

Freezing

Question 8

How does a liquid go to a gas?

Answer 8

Evaporation

Question 9

How does a gas go to a liquid?

Answer 9

Condensation

Question 10

How does a gas go to A solid?

Answer 10

Sublimation

Question 11

Why is there a change of state during melting?

Answer 11

The vibrations between the particles will be sos trying that they will break apart and gain a freer structure

Question 12

Does anything change with change of state?

Answer 12

No

An ice cube is the same as water or water vapour

Question 13

Why does the temperature stop rising when the object melts?

Answer 13

As energy is transferred from the surroundings to the forces between particles within the solid, forcing them to break. Once fully melted, the transfer of energy will be towards the substance causing the temperature to continue rising

Question 14

What is covalent bonding?

Answer 14

Sharing electrons

Question 15

What is ionic bonding?

Answer 15

Transferring electrons

Question 16

Why will an element in the alkali metals becoming a positive ion?

Answer 16

As there will be more protons in the nucleus than electrons in the electron shells, thus there will be a positive charge

Question 17

Why will ana element in the halogens become a negatively charged ion?

Answer 17

As they will gain an electron, meaning their nucleus has less protons than the electron shells, and so it is negatively charged

Question 18

How is ionic bonding displayed?

Answer 18

Dot and cross diagrams

Question 19

What is a giant lattice?

Answer 19

A 3D network of ions or atoms

Question 20

What happens to the charge if the ion when group two ionically bonds?

Answer 20

It gains a plus two charge

Question 21

When drawing complete ionic bonds, what do you add?

Answer 21

Brackets displaying the charge

Question 22

Why do ionic compounds have high melting points?

Answer 22

As you must overcome the forces of electrostatic attraction

Question 23

Properties of an ionic solid

Answer 23

Ions are in fixed position and can only vibrate

Do not conduct electricity

Question 24

Properties of a molten ionic compound

Answer 24

High temperature provides enough energy to overcome the many strong forces between ions- free to move within molten compound

Conducts electricity

Question 25

Properties of an ionic compound in solution

Answer 25

Water molecules separate ions from the lattice- ions are free to move in solution

Does not conduct electricity

Question 26

What is a double bond?

Answer 26

Two pairs of electrons are shared

Question 27

What are intermolecular forces?

Answer 27

The attraction between individual molecules in a covalent bonded substance

Question 28

What increases intermolecular forces?

Answer 28

The size of the molecules

Question 29

What is a polymer?

Answer 29

Small reactive molecules in very large chains

Question 30

What are intermolecular forces like on polymers?

Answer 30

Relatively high

Question 31

Explain how a polymer chain is shown

Answer 31

H  H  H
|    |    |
C-C-C
|    |    |
H  H  H

Question 32

How many bonds does diamond have?

Answer 32

4 carbon bonds

Question 33

How many bonds does graphene haven

Answer 33

3 bonds

Question 34

Properties of diamond

Answer 34

High melting and boiling points
Hard
Insoluble in water
Does not conduct electricity

Question 35

Properties of graphite

Answer 35

Soft
Can conduct electricity due to the presence of a delocalised electron
Insoluble in water

Question 36

Why is there a delocalised electron in graphite?

Answer 36

As carbon has four electrons on its outer shell, when the covalent body of graphite is made (which only uses three covalent carbon bonds), there is one electron spare that can conduct electricity

Question 37

What is a fullerene?

Answer 37

Form of the element carbon that can exist as a large cage like structure, based on hexagonal rings of carbon atoms like graphite, however they may also have rings if five or seven

Question 38

What are carbon nanotubes?

Answer 38

Cylindrical fullerenes

Question 39

Properties of carbon nanotubes

Answer 39

High tensile strength

High electrical conductivity and thermal conductivity - they have a delocalised electron

Question 40

How can fullerenes be used?

Answer 40

Drug delivery into the body- for example to cancer cells at very specific sites within the body

They can be used as lubricants (as can graphite)

They can be used as catalysts due to their large surface area to volume ratio of their nanoparticles

Question 41

What is graphene?

Answer 41

A single sheet of carbon atoms- just one atom thick

Question 42

Properties of graphene?

Answer 42

Excellent conductor of electricity (better than graphite)
Has a low density
Most reactive form of carbon
Incredibly strong for its mass

Question 43

What is a metal lattice?

Answer 43

A lattice of positivity charged ions. They are layered on top of each other. The outer electrons cause a sea of delocalised electrons- this makes metal a good conductor

Question 44

What are the atoms in mental like?

Answer 44

In a regular pattern in layers

Question 45

Why can metals be hammered and bent into different shapes?

Answer 45

As the layers of atoms in pure metal can slide easily over each other

Question 46

What is an alloy?

Answer 46

A mixture of two or more elements at least one that is a metal

Question 47

Why do metals have high melting points?

Answer 47

The electrostatic forces extend in all directions- this it takes a lot of energy to break the lattice and melt the metal

Question 48

What does nano mean?

Answer 48

One billionth

Question 49

Are nanoparticles visible in light?

Answer 49

No they are invisible

Question 50

What does the surface area to volume ratio show?

Answer 50

The higher the ratio, the higher the proportion of particles exposed at the surface

Question 51

Why are nanoparticles sustainable?

Answer 51

As less resources are used up

Question 52

What are concerns of nanoparticles?

Answer 52

Their environmental impact

Question 53

What are uses of nanoparticles?

Answer 53

Glass can be coated- this means when it rains the water spreads evenly over the surface of the glass washing off the broken down dirt

Modern sunscreens- to make the mixture thicker, this ales them more effective at blocking the suns rays

The cosmetics industry- nanoparticles in face creams are absorbed deeper into the skin

Used in deodorants

Question 54

How are nanoparticles used in medicine?

Answer 54

Gold nanoparticles can be injected into the body and absorbed by tumours. Tumours have leaky blood vessels with holes hat the nanoparticles can get through- healthy cells do not. Then a laser is directed at the tumour heating up the nanoparticles. This can change the properties of the tumour and destroy the cells, without harming healthy cells

Question 55

How are nanotubes potentially being used in the future?

Answer 55

To develop nanowire that could make tiny circuits.

Nanotechnology suits as well- can withstand bullets but are flexible

Question 56

Risks of nanoparticles?

Answer 56

Their large surface area means if one is set off, there could be a large explosion

May find their way into atmosphere, causing damage if breathed in.

Not much research on nanoparticles