Inorganic chemistry

Question 1

State 3 characteristics of Alkali metals

Answer 1

-One electron in their outer shell
-Low density
-Soft

Question 2

How do Group 1 elements react with non-metals? why are these reactions similar for the different Group 1 elements?

Answer 2

They form ionic compounds which are soluble white solids which form colourless solutions-they all have one electron in their outer shell.

Question 3

How do group 1 elements react with water

Answer 3

-Release H2 gas and form hydroxides
-Reactvigorously with water fizzing and moving around on the surface of the water.

Question 4

How does reactivity change moving down Group 1? Why?

Answer 4

It increases as the electrons get larger and the distance between the nucleus and the outer shell electrons increases and thus attraction from the nucleus decreases, allowing them to more easily lose electrons

Question 5

State 5 characteristics of elements in Group 7

Answer 5

-7 electrons in outer shell
-Coloured vapours
-Diatomic molecules
-Form ionic salts with metals
-Form molecular compunds with non metals

Question 6

State 5 characteristics of Group 7

Answer 6

-7 electrons in outer shell
-Coloured vapours
-Diatomic molecules
-Form ionic salts with metals
-Form molecular compounds with non metals

Question 7

State Group 7 gases and their states of matter.

Answer 7

Flourine→pale yellow gas
Chlorine→pale green gas
Bromine→Dark brown liquid
Iodine→Grey solid
Astatine→Solid

Question 8

State 3 changes that occur in Group 7 as one moves down the group

Answer 8

-Higher relative melcular mass
-Higher boiling point
-Less reactive-electrons less easily gained

Question 9

A more reactive halogen displaces a less reactive one from an aqueous solution of its salt; explain the trend in reactivity of halogens in these reactions

Answer 9

Reactivity decreases down the group. As we go down the group, the atoms get larger, so an incoming electron will be less tightly held by the attractive forces from the nucleus.

Question 10

Solubility rules

Answer 10

Potassium, sodium and ammonium→SOLUBLE
Nitrate→SOLUBLE
Common Chlorides→SOLUBLE (exc. lead and silver).
Common sulfates→SOLUBLE (exc. lead, barium and calcium)
Common carbonates→INSOLUBLE (exc. sodium, potassium and ammonium).
Common hydroxides→ INSOLUBLE (exc. sodium, potassium and calcium).

Question 11

Define rusting

Answer 11

Process of forming hydrated iron (III) oxide. Leaves a brown deposit on the surface of material

Question 12

Outline how you would prepare a sample of PbSO4

Answer 12

Mix a soluble Pb (II) salt, with a source of sulfates. PbSO4 is insoluble in water-precipitate forms. Filter to collect the preciptate. Wash with H2O. Leave to dry

Question 13

You have a sample of a pure liquid. How could you check its identity?

Answer 13

Measure its boiling point.

Question 14

Outline how you would prepare a sample of NaCl from NaOH and HCl

Answer 14

In this case, we don’t know when to stop adding one of the reagents- there is no indication of the completion of out reaction. You can use an indicator in this case, just like in acid/base titration. Adding one of the reagents by a burette will help with accuracy. Then boi the mixture to remove some solvent and leave to crystallise. Filter and dry the product

Question 15

How can you show that a liquid contains pure water?

Answer 15

Add the liquid being tested to a sample of pure, anhydrous crystals of CuSO4 (white). The positive test will result in the formation of the blue, hydrated copper (II) sulphate.

Question 16

How could you test for the presence of NH4+ ions?

Answer 16

Add NaOH to the aqueous solution of the tested salt. Shake gently. Put a damp litmus paper near the outlet of the test tube. The damp litmus paper will turn blue of NH4+ were present in your solution (NH3 formation)

Question 17

What is an oxidising and a reducing agent?

Answer 17

Oxidising: Gets reduced in a redox reaction (gains electrons; causes the oxidation of another substance).
Reduction: Gets oxidised in a redox reaction (loses electrons; causes the reduction of another substance).

Question 18

What is the reactivity series? What are the trends in reactivities of metals in reaction with acids/water?

Answer 18

Metals above H2 in the reactivity series react with acids to produce H2. The more reactive the metal is, the quicker and more violent the reaction with acid is.

Metals below H2 don’t react with acids.

Question 19

State the colours of flames observed when lithium, sodium and potassium burn in oxygen

Answer 19

Crimson-red. Li
Yellow-Orange. Na
Lilac. K

Question 20

How to conduct a titration

Answer 20

1) Rinse a pipette with a solution of unknown concentration. Use the pipette to measure out the known volume of this solution
2) Add an indicator (Substance that changes the colour at the end of titration)
3) Rinse the burette with a solution of known concentration. Discard the liquid. Use a burette to gradually add the solution of known concentration
4) It is important to get concordant volue results-they have to lie close to each other
5) Suitable calculations are performed to find the concetration

Question 21

What is the reactivity series of metals?

Answer 21

Metals above H2 in the reactivity series react with acid to produce H2. The more reactive the metal is the quicker and more violent reaction with acid occurs. Metals below H2 don’t react with acids. Not all metals above H2 react with water- mostly Group I and II metals. Aluminium is the borderline case

Question 22

Define displacement reaction

Answer 22

A reaction where a more reactive metal displaces a less reactive metal in a compound.

Question 23

How can metals less reactive than carbon be extracted?

Answer 23

Reduction with carbon. Carbon displaces the metal in a metal oxide. Metal from the metal oxide gets reduced to the pure metal

Question 24

How are metals more reactive than carbon extracted?

Answer 24

Electrolysis

Question 25

How are oxidation and reduction defined in terms of electron transfer?

Answer 25

Oxidation-loss of electrons
Reduction-gain of electrons

Question 26

What is the general equation for a reaction between metals and acids?

Answer 26

Metal+acid→salt+hydrogen
Redox reaction, also a displacement reaction

Question 27

Which metals in the reactivity series will react with acid?

Answer 27

Those above hydrogen

Question 28

General equation for a neutralisation reaction?

Answer 28

Acid+Base→Salt+water

Question 29

General equation for the reaction between a metal carbonate and an acid

Answer 29

Metal carbonate+acid→salt+water+carbon dioxide

Question 30

General equation for the reaction between metal oxide and acid

Answer 30

Metal oxid+acid →salt+water

Question 31

What is a redox reaction

Answer 31

A reaction where both oxidation and reduction occurs

Question 32

How is a soluble salt formed?

Answer 32

-Add an insoluble base to warm acid to form a soluble salt and water until no more base will dissolve.
-Filter off the leftovers
-Heat the solution to evaporate the water than leave the salt to crystallise.

Question 33

What do acids and alkalis produce in aqueous solutions?

Answer 33

Acids produce hydrogen ions, alkalis produce hydroxide ions.

Question 34

What are bases, acids and alkalis?

Answer 34

-Bases are compounds that neutralise acids to produce a salt
-Acids are substances that produce hydrogen in aqueous solutions
-Alkalis are soluble bases that produce hydroxide ions in aqueous solutions.

Question 35

What is the pH scale and what does a pH of 7 show?

Answer 35

The measure of acidity/alkalinity of a solution; neutral solution

Question 36

State the general equation for a neutralisation reaction in a short ionic form.

Answer 36

H⁺+OH⁻→H2O

Question 37

What is a strong and weak acid?

Answer 37

Strong acid is completely ionised in aqueous solution; weak acid is only partially ionised.

Question 38

What happens to pH as concentration of H⁺ increases?

Answer 38

It decreses=acidic

Question 39

As the pH is decreased by one unit what change is seen in the hydrogen ion concentration?

Answer 39

Increases by a factor of 10

Question 40

What is a concentrated acid and what is a diluted acid? Is this the same as a strong and weak acid?

Answer 40

Concentrated has more moles of aci per unit volume of water than dilute (referring to solutions of low concentrations) Not the same-concentration is not the same as strength of an acid. Strength refers to whether the acid is completely ionised in water (strong) or only partially (weak)

Question 41

Describe the tests for hydrogen, carbon dioxide, oxygen and chlorine.

Answer 41

Hydrogen- ‘pop’ heard when burning splint is placed over the gas
Carbon dioxide-Turns limewater milky or cloudy
Oxygen-glowing splint relights
Chlorine-bleaches damp blue litmus paper and makes it white.

Question 42

Describe the flame test results

Answer 42

Lithium-Crimson red
Sodium-Yellow
Potassium-Lilac
Calcium-Orange-red
Copper- blue-green

Question 43

Describe the sodium hydroxide test results

Answer 43

Copper (II) forms a blue precipitate
Iron (II) forms a dirty green precipitate
Iron (III) forms a brown precipitate
Al³⁺, Ca ²⁺, Mg²⁺ form white precipitates but only the Al(OH)3 dissolves in excess NaOH to forms a colourless solution
(aq)+(aq)→(s)

Question 44

Describe the test for sulfate ions

Answer 44

Add solution containing Ba²⁺ cations. Whiite precipitate of BaSO4 forms

Question 45

Describe the test for carbonate anions

Answer 45

Add dilute acid and fizzing is observed as CO2 is present

Question 46

Proportions of gases in the modern atmosphere

Answer 46

78% of N2
21% of O2
small quantities of CO2, H2O and noble gases

Question 47

What is the greenhouse effect? Give 3 examples of greenhouse gases

Answer 47

Greenhouse gases in the atmosphere mantain temperatures on Earth high enough to mantain life.
Water vapour, carbon dioxide, and methane.

Question 48

Potential effects of global climate change?

Answer 48

-Sea levels rise=flooding
-Melting of glaciers
-More frequent and severe storms
-Temperature and water stress

Question 48

How have human activities led to an increase in greenhouse gases?

Answer 48

Carbon dioxide-combustion of fossil fuels and deforestation
Methane-increased farming and decomposition in landfills

Question 49

What are the issues regarding sulfur dioxide and oxides of nitrogen?

Answer 49

They can cause respiratory problems as well as acid rain.