Inorganic Chemistry & The PT

Question 1

What is the outer shell electron configuration of the halogens?

Answer 1

s2 p5

Question 2

Room temperature appearance of fluorine

Answer 2

Yellow gas

Question 3

Room temperature appearance of chlorine

Answer 3

Green gas

Question 4

Room temperature appearance of bromine

Answer 4

Brown liquid

Question 5

Room temperature appearance of iodine

Answer 5

Dark grey solid

Question 6

Describe the trend in boiling points down group 7

Answer 6

Boiling points increase: number of electrons increase; more London forces; more heat energy needed to break these intermolecular forces

Question 7

Electronegativity def

Answer 7

The ability of an element to draw a pair of bonding electrons towards itself in a covalent bond

Question 8

Describe the trend of electronegativity down group 7

Answer 8

Electronegativity decreases: more protons means an increasing nuclear charge should attract outer electrons more; number of electron shells increases and so there is more shielding; atomic radius increases then means less nuclear attraction for outer electrons

Question 9

Describe the trend of atomic size in group 7

Answer 9

Increases: greater atomic radius means more electrons; more electron shells so distance between outer electrons and nucleus increases

Question 10

Describe the trend of ionic size down group 7

Answer 10

Increases: these ions (anions) are larger than atoms; added electrons to the same nuclear charge causes repulsion from other electrons, expanding the radius

Question 11

Describe the trend of reactivity in group 7

Answer 11

Decreases: decreasing tendency to gain electrons; increasing nuclear charge as more protons should attract outer electrons more; but more electrons means more sheets and shielding; so atomic radius increases; less positive nuclear charge is experienced by outer electrons

Question 12

Oxidising agents def + eg

Answer 12

Something that causes other substances to oxidise and is itself reduced e.g. Group 7 elements readily accept an electron to form negative ions

Question 13

What is the trend in oxidisation for group 7?

Answer 13

Decreases: fluorine is a strong oxidising agent whereas iodine is fairly weak

Question 14

What is the half equation for group 7 elements?

Answer 14

Reduction reaction: X2 + 2e- —> 2X-

Question 15

Displacement reactions def (in group 7)

Answer 15

When a more reactive halogen displaces a less reactive one from its halide salt

Question 16

How do halogens displace each other?

Answer 16

Cl2 oxidises 2Br- to Br2 and 2Cl-
Cl2 oxidises 2I- to I2 and 2Cl-
Br2 oxidises 2I- to I2 and 2Br-
Iodine does not react with bromides or chlorides

Question 17

Solubility of halogens

Answer 17

All halogens dissolve readily in non-polar solvents; solute and solvent molecules have the same type of intermolecular attraction; new attractions are able to replace the previous ones (like dissolves like); only slightly soluble in polar molecules of water

Question 18

Colour of halogen solutions in water

Answer 18

Cl - pale green
Br - orange
I - pale brown

Question 19

Colour of halogen solutions in cyclohexane

Answer 19

Cl - pale green
Br - orange
I - violet

Question 20

Halogen reaction with metals (equation eg)

Answer 20

Ha2 + 2Me —> 2MeHa

Produces metal halides

Question 21

Disproportionation reaction def

Answer 21

When the same species is both oxidised and reduced in a reaction

Question 22

Health benefits of chlorine use in water

Answer 22

Treatment of water in making it potable; powerful oxidising nature; effective disinfectant and kills bacteria; prevent a spread of water-borne diseases.
Bleach; decolourises water

Question 23

Describe the trend in first ionisation energies in group 2

Answer 23

Decreases: atomic radius increase as number of electron shells increases; more shielding so weaker attraction between outer electrons and nucleus; less energy needed to lose outer electrons. The increase in number of protons is negated by increase in atomic charge and shielding.

Question 24

Describe the trend in reactivity in group 2

Answer 24

Increases: atomic radius increases; more shielding; less attraction; outer two electrons more easily lost

Question 25

General equation of group 2 metals reacting with water

Answer 25

M(s) + 2H2O(l) —> M(OH)2(aq/s) + H2(g)

Question 26

When phosphorous reacts in a limiting supply of any halogen, what is formed?

Answer 26

Phosphorous trihalide

3Ha2 + 2P —> 2PHa3

Question 27

What phosphorous reacts in an excess of any halogen, what is formed?

Answer 27

Phosphorous pentahalide

5Ha2 + 2P —> 2PHa5

Question 28

How would you identify metal ions using flame tests?

Answer 28

Clean a platinum or nichrome wire in concentrated hydrochloric acid and place it in the hottest part of the Bunsen flame until it produces no colour. Moisten the wire in the acid and dip it in a sample of the powered solid being tested. Place in the flame and note the colour. Alternatively, spay a solution if the salt and ethanol in the flame.

Question 29

Flame test colour of lithium

Answer 29

Red (crimson)

Question 30

Flame test colour of sodium

Answer 30

Yellow

Question 31

Flame test colour of potassium

Answer 31

Lilac

Question 32

Flame test colour of calcium

Answer 32

Red orange / brick red

Question 33

Flame test colour of strontium

Answer 33

Red

Question 34

Flame test colour of barium

Answer 34

Pale green (apple green)

Question 35

How are colours produced in flame tests?

Answer 35

Electrons in the metal ion gain kinetic energy when heated so much that they can jump an energy level into an empty orbit. The electrons are now at a more energetically unstable level so they tend to fall back to their originals level. This releases energy in the form of visible light but at different frequencies due to the different gaps between levels to give particular colours.

Question 36

Bleaching def

Answer 36

The removal of colour from a substance. This is achieved by adding oxidising agents such as chlorine since coloured material often become colourless when oxidised

Question 37

Examples of reducing agents

Answer 37

Iron (II) compounds. Chlorine reacts with these ions to form iron (III) ions

Question 38

Halogens reactions with thiosulfate (S2O3^2-)

Answer 38

Chlorine and bromine both oxidise the sulfur from +2 in the thiosulfate ion to +6 in the sulfate ion. Iodine oxidises thiosulfate ions to tetrathionate ions (S4O6^-2) with sulfur’s oxidation number of 2.5

Question 39

Test for chlorine

Answer 39

Bleaches damp litmus paper (turns white).
Bubble through a potassium bromide solution. The colourless solution turns orange because the bromide ions are displaced and bromine is formed.

Question 40

Test for bromine

Answer 40

Damp litmus paper is slowly bleached.
Bubble through potassium iodide solution. The colourless solution turns red-brown because the iodide ions are displaced and iodine is formed.

Question 41

Test for iodine

Answer 41

Add to starch solution which will turn it dark solution

Question 42

Which halide compounds are insoluble in water?

Answer 42

Silver halides and lead (II) halides

Question 43

Reaction of hydrogen halides with water

Answer 43

Hydrogen halides are acids and react with water to form hydroxonium ions (H3O^+). The H-Ha bond is broken. This strength decreases down the group.

Question 44

Why is HI the strongest acid out of the three hydrogen halides in reacting with water?

Answer 44

It will lose a proton the easiest due to having the weakest bonds

Question 45

Reaction and use of ammonia with hydrogen halides

Answer 45

Used to test for hydrogen halides but it can’t distinguish between them. It produces misty white fumes NH4Ha

Question 46

Test for distinguishing between the halide ions (process)

Answer 46

Add dilute HNO3 to the solution. Add a few drops of silver nitrate. Add dilute ammonia solution to the precipitate formed. If the precipitate doesn’t dissolve, add concentrated ammonia solution

Question 47

Test for distinguishing between the halide ions (results) - with silver nitrate, dilute ammonia and concentrated ammonia

Answer 47

Silver nitrate - Cl: white, Br: cream, I: yellow
Dilute ammonia - Cl: soluble, Br: insoluble, I: insoluble
Concentrated ammonia - Cl: soluble, Br: soluble, I: insoluble

Question 48

Reducing ability of hydrogen halides

Answer 48

Increases down the group because the bond strength decreases

Question 49

How do group 2 metals react with water?

Answer 49

Form slightly soluble hydroxides (low concentration). Magnesium reacts slowly with cold water but rapidly with steam. Ca, St and Ba react with cold water at an appreciable rate

Question 50

What is the trend in solubility of group 2 oxides?

Answer 50

Increases down the group. The solubility of the hydroxides formed also increases as does the alkalinity of the solution formed

Question 51

Why is the first ionisation energy of hydrogen less than that of helium but greater than that of lithium?

Answer 51

Helium has more protons and therefore a greater nuclear charge than hydrogen and has its outer electrons in the same shell. Lithium is in period two so the outer electron is at a higher energy level meaning there is more shielding by inner electrons.

Question 52

What are the limitations and benefits of placing hydrogen above lithium in the periodic table?

Answer 52

Hydrogen is not a metal. It doesn’t react in the same way as the rest of the group 1. However it also has one electron in its outer shell like the other group 1 elements.

Question 53

Do transition metals from white compounds?

Answer 53

No. They are normally coloured

Question 54

What is the test for water?

Answer 54

Turns white copper sulphate blue

Question 55

Why is argon used in lamps?

Answer 55

Because it provides an inert atmosphere when reacting with oxygen so the lamp won’t catch fire

Question 56

What is the equation for the reaction of chlorine with cold, dilute sodium hydroxide solution to form bleach?

Answer 56

2NaOH + Cl2 —> NaCl + NaClO + H2O

Question 57

What is observed when hydrogen bromide gas reacts with ammonia gas?

Answer 57

Misty white fumes/white smoke

Question 58

In a mass spectrometer analysis of bromine Br2 with isotopes Br-79 and Br-81 present, why is there a small peak at m/z 80?

Answer 58

Br2 has a mass of 160 (as well as 158 and 162). This comes from a molecule of Br-79 and Br-81. The Br2^2+ ion has an m/z of 80

Question 59

What anhydrous compound can be used as a drying agent?

Answer 59

(Sodium) sulfate