Topic 10: Qualative Analysis And Nano Particles

Question 1

How do you carry out a flame test?

Answer 1

1) light a Bunsen burner and open the air hole to give a hot blue flame.
2) pick a small amount of the substance using a wire loop.
3) hold the sample in the edge of the flame and observe the flame colour.

Question 2

Why must the wire loop be placed in hydrochloric acid and what is it made of?

Answer 2

It must be cleaned in hydrochloric acid before testing each substance. It is made of platinum so is inert. It also gives no colour to the flame.

Question 3

Why might nichrome be used instead platinum in the wire loop when flame testing?

Answer 3

It is much cheaper but produces a faint orange flame.

Question 4

What do flame tests test for?

Answer 4

Cations produces different flame test colours. Flame tests with work with solid samples and with solutions but flame colours from solids are easier to see.

Question 5

What flame colour does lithium produce?

Answer 5

Red

Question 6

What flame colour does sodium produce?

Answer 6

Yellow

Question 7

What flame colour does potassium produce?

Answer 7

Liliac

Question 8

What flame colour does calcium produce?

Answer 8

Orange-red

Question 9

What flame colour does copper produce?

Answer 9

Blue-green

Question 10

Machines can also be used instead of flame tests to analyse substances. Using scientific instruments may improve:

Answer 10

• sensitivity (they can detect much smaller amounts)
• accuracy (they give values closer to the true values)
• speed.

Question 11

What is a flame photometer?

Answer 11

Measures the light intensity of the flame colours produced by metal ions. Its data is used to determine the concentration of a metal ion in a dilute solution.

Question 12

What is calibration curve?

Answer 12

A graph used to determine the concentration of a substance in a sample.

Question 13

Define the term standard solution:

Answer 13

A solution containing a known concentration of a substance.

Question 14

How can a metal ion in an unknown solution be identified?

Answer 14

matching its spectrum to that of a known metal ion. (A flame photometer separates out the colours to produce a spectrum of light emitted by each metal ion.

Question 15

Define the term emission spectra:

Answer 15

A set of wavelengths of light or electromagnetic radiation showing which wavelengths have been given out (emitted) by a substance.

Question 16

How can water which has been contaminated from waste produced by mines be cleaned?

Answer 16

The polluting metal compounds can be removed by using hydroxide solution. This reacts with the metal ions to produce a precipitate, which settles out and can be removed.

Question 17

What is a precipitation reaction?

Answer 17

It is a reaction in which an insoluble product is formed from 2 soluble reactants.

Question 18

How can you test for metal ions?

Answer 18

Sodium hydroxide solution can be used to test for metal ions in a solution. A few drops of hydroxide solution are added to test the solution. Different metal ions produce different coloured hydroxide precipitates.

Question 19

What precipitate does iron (ll) produce?

Answer 19

Green

Question 20

What precipitate does iron (lll) produce?

Answer 20

Brown

Question 21

What precipitate does copper produce?

Answer 21

Blue

Question 22

What precipitate does calcium produce?

Answer 22

White

Question 23

What precipitate does aluminium produce?

Answer 23

White

Question 24

How can you distinguish between aluminium and calcium as they both produce a white precipitate when sodium hydroxide is added to the solution containing those ions?

Answer 24

Aluminium hydroxide disappears to form a colourless solution when excess sodium hydroxide is added to the solution containing aluminium ions. The solution containing calcium ions stays colourless.

Question 25

How can you test for ammonium ions?

Answer 25

1) Dilute sodium hydroxide solution can also be used to detect ammonium ions.
2) ammonia gas is produced when the mixture containing ammonia warmed.
3) ammonia can be identified from its sharp smell but a confirmatory test is used to identify if ammonia is present.
4) ammonia changes damp red litmus paper to blue.

Question 26

How are carbonate ions (which are negative) tested for in solids and solutions?

Answer 26

Add dilute hydrochloric acid to the test substance and look for bubbling caused by the production of carbon dioxide. The bubbles could be another gas so to make sure it’s carbon dioxide collect the gas. Carbon dioxide turns lime water milky.

Question 27

How can you test for sulphate ions (which are negative)?

Answer 27

1) add a few drops of dilute hydrochloric acid to the solution.
2) this acidified the solution and removes carbonate ions that might also give a precipitate in the test.
3) then add a few drops of barium chloride solution.
4) a white precipitate of barium sulphate forms if the sample contains sulphate ions.

Question 28

What kind of compounds to halogens form?

Answer 28

They are non-metal elements and form halide ions.

Question 29

How can you identify halide ions in a solution?

Answer 29

• add a few drops of dilute nitric acid.
• this acidifies the solution and removes any carbonates that may form a precipitate in the test.
• then add a few drops of solider nitrate solution.
• different coloured silver halide precipitates form, depending on the halide ion present.

Question 30

What are the different silver halide precipitate colours?

Answer 30

Bromide - cream
Chloride - white
Iodide - yellow

Question 31

What are ceramics?

Answer 31

A range of durable compounds that change very little when heated.

Question 32

What are the properties of ceramics?

Answer 32

• chemically inert
• hard
• stiff
• brittle
• poor electrical and thermal conductors
• high melting points

Question 33

What kind of structures make up ceramics and how does this give them their properties?

Answer 33

Ceramic materials consist of giant structures with many strong bonds (covalent or ionic), giving them their typical properties.

E.g strong covalent and ionic bonds = high melting point

Question 34

Give 3 examples of clay ceramics:

Answer 34

• china
• brick
• porcelain

Question 35

How are clay ceramics formed?

Answer 35

Made from clay moulded into the desired shape. When heated to a very high temperature tiny crystals form and join together. Sometimes china and porcelain are glazed and heated gain to form a hard, waterproof surface to be used as tiles (etc).

Question 36

How is glass made?

Answer 36

Glass is made by melting sand and then allowing it to cool and solidify.

Question 37

What similar properties to glass and clay ceramics share and how are they different.

Answer 37

Both have giant structures.

However, the atoms in glass are not arranged in regular way so glass is transparent instead of opaque like clay.

Question 38

What are polymers?

Answer 38

These are substances with high average relative masses. They are made from monomers. Smaller molecules that join together to form repeating units.

Question 39

What do properties of a polymer depend on?

Answer 39

Polymers can be moulded into complex shapes. Its properties depend on its structure and chemical composition.

Question 40

What are some of the usual properties of a polymer?

Answer 40

• strong
• chemically inert
• poor electrical and thermal conductors

Question 41

What are some of the properties of a metal?

Answer 41

• strong
• hard
• shiny solids
• high melting points
• good electrical and thermal conductors
• malleable

Question 42

What are alloys and why can they be more useful than metal elements?

Answer 42

Alloys are a mixture of different elements. They are often stronger than individual metals.

Question 43

Why might some metals be electroplated?

Answer 43

They can be electroplated with an inert metals to improve their appearance or their resistance to corrosion.

Question 44

What is a composite material?

Answer 44

A mixture of 2 or more materials, combined to produce material with improved properties.

The individual materials often have contrasting properties. They are also usually visible in the composite material and can be separated out by physical separation methods.

Question 45

How is concrete made?

Answer 45

1) mix cement, sand, aggregate (small stone and gravel) and water together.
2) as it sets hard chemical reactions happen that bond the solid components together.
3) the sand and aggregate form the reinforcement of the concrete.
4) the reinforcement is bonded together by cement with forms the matrix.

Question 46

Define the term reinforcement:

Answer 46

In a composite material, the substance that is bound together by the matrix material.

Question 47

Define the term matrix:

Answer 47

In a composite material, it is the substance that binds the reinforcement material together.

Question 48

What are some of the properties of glass fibres?

Answer 48

• brittle
• have a low density
• have a high tensile strength (resist being stretched).

Question 49

What is meant by compressive strength?

Answer 49

A measure of how well a material resists being squashed.

Question 50

What is the compressive strength of concrete and what does this mean concrete can be used for?

Answer 50

Sting in compression but weak in tension. Therefore it is suitable for road surfaces and for foundations where it will be squashed.

However, concrete beams tend to crack along their lower surfaces, which is stretched when a beam carries a load.

Question 51

Why are steel and concrete often used together?

Answer 51

Steel is dense than concrete but has a higher tensile strength - can withstand high tensions. Still reinforced concrete consists of a framework of steel bars with concrete lured in and around it. The material together is cheaper than steel still alone and less dense, and has a high tensile and compressive strength. It can also withstand high tension.

Question 52

Is wood a natural composite material?

Answer 52

Yes.

Question 53

What does wood consist of?

Answer 53

Consists of cellulose fibres in a matrix of a polymer called lignin. It is stringer along this grains than across its grain.

Question 54

What is a nanoparticle?

Answer 54

A piece of material consisting of a few hundred atoms and between 1nm to 100nm in size.

Question 55

What size are nanoparticles relative to other products?

Answer 55

Nanoparticles are bigger than atoms but smaller than cells.

Question 56

How do nanoparticles occur?

Answer 56

Naturally but can be manufactured.

Question 57

How are substances that consist of nanoparticles described?

Answer 57

As being nano-particulate.

Question 58

How to calculate surface area to volume ratio?

Answer 58

SA / Volume

Question 59

Uses of nanoparticles:

Answer 59

• they have a large SA:V ratio which makes them useful as catalysts. E.g they can break down dirt to keep it of materials like satin resistant cloth.
• nano-particulate titanium dioxide is transparent because it’s particles are very small, but it absorbs ultraviolet radiation. This makes it useful for almost invisible sun cream. Ultraviolet radiation can cause skin cancer.

Question 60

What are some of the risks of nanoparticles?

Answer 60

-scientists worry they may pose a risk to the environment and human health.

Question 61

How may nanoparticles pose a threat to human health?

Answer 61

• They are small so can be breathed in.
• they can pass through cell surface membranes due to their size.
• their large SA:V ratio alloys them to catalyse human reactions or to carry toxic substances bound to their surfaces.

Question 62

Why are the risks of nanoparticles hard to determine?

Answer 62

They have not been used for long so scientists do not know their long term effects on the environment or the health of humans and animals.