Transition Elements

Question 1

Define a d-block element

Answer 1

Located between groups 2 and 3/13 of the periodic table with their highest energy electrons in 3d orbital

Question 2

What are the typical physical poperties of d-block elements

Answer 2

1. All metallic
2. High melting/boiling points
3. Shiny in appearance
4. Conduct electricity and heat

Question 3

What is the electron configuration of vanadium, cobalt, copper and chromium

Answer 3

Vn- 1s2 2s2 2p6 3s2 3p6 3d3 4s2
Cr-1s2 2s2 2p6 3s2 3p6 3d5 4s1
Co- 1s2 2s2 2p6 3s2 3p6 3d7 4s2
Cu- 1s2 2s2 2p6 3s2 3p6 3d10 4s1

Question 4

Why do chromium and copper not follow the expected pattern of electron configuration

Answer 4

It is believed that a half-filled d5 sub-shell and a fully filled d10 sub-shell give additional stability to atoms of chromium and copper

Question 5

What happens when forming d-block ions

Answer 5

1. When forming an atom, the 4s orbital fills before the 3d orbitals
2. When forming an ion, the 4s orbital empties before the 3d orbital

Question 6

Give the electron configuration of Fe and Fe2+

Answer 6

Fe- 1s2 2s2 2p6 3s2 3p6 3d6 4s2

Fe2+ -1s2 2s2 2p6 3s2 3p6 3d6

Question 7

Define a transition element

Answer 7

1. A d-block element that forms at least one stable ion with an incomplete d sub-shell

Question 8

Name two d-block elements that aren’t transition elements at explain why

Answer 8

1. Scandium and zinc
2. Scandium only forms the Sc 3+ ion which has the electron configuration: 1s2 2s2 2p6 3s2 3p6 , so it doesn’t have an incomplete d-subshell
3. Zinc only forms the Zn2+ ion which has the electron configuration 1s2 2s2 2p6 3s2 3p6 3d10, so it doesn’t have an incomplete d sub-shell

Question 9

What are the three main properties of transition elements and give two examples of each

Answer 9

1. They form compounds in which the transition element has different oxidation states
   e. g. Iron can be Fe2+ or Fe3+ and manganese can be found as Mn2+ or as MnO4-
2. They form coloured compounds
   e. g. solutions of Fe2+ are pale green, solutions of Fe3+ are pale yellow. And solutions of Mn2+ are pale pink but solutions of MnO4- are deep purple
3. The elements and their compounds can act as catalysts
   e. g. Iron in Haber process and MnO2 can catalyse decomposition of H2O2

Question 10

Define homogenous catalyst

Answer 10

A substance that increase the rate of a chemical reaction without being used up in the process, which is in the same state as the reactants it is acting on.

Question 11

Define heterogenous catalyst

Answer 11

A substance that increase the rate of a chemical reaction without being used up in the process, which is in a different state to the reactants it is acting on.

Question 12

List 5 processes where a transition metal catalyst is used

Answer 12

1. Haber process
2. Contact process
3. Hydrogenation of vegetable oil
4. Decomposition of hydrogen peroxide
5. Reaction between iodate and peroxidisulfate ions

Question 13

Name the catalyst used, the equation of the reaction and whether it is a heterogenous or homogenous catalyst for the Haber process

Answer 13

1. N2(g) + 3H2(g) ↔ 2NH3(g)
2. Iron catalyst
3. Heterogenous

Question 14

Name the catalyst used, the equation of the reaction and whether it is a heterogenous or homogenous catalyst for the Contact process

Answer 14

1. 2SO2 (g) + O2 (g) ↔2SO3 (g)
2. Vanadium (v) oxide, V2O5 (s)
3. Heterogenous

Question 15

Name the catalyst used, the equation of the reaction and whether it is a heterogenous or homogenous catalyst for the Hydrogenation of vegetable oil

Answer 15

1. HC=CH+ H2 → -CH2-CH2-
2. Nickel catalyst
3. Heterogenous

Question 16

Name the catalyst used, the equation of the reaction and whether it is a heterogenous or homogenous catalyst for the Decomposition of hydrogen peroxide

Answer 16

1. 2H2O2 (aq) → 2H2O (l) + O2 (g)
2. MnO2 (s), Manganese (IV) Oxide
3. Heterogenous

Question 17

Name the catalyst used, the equation of the reaction and whether it is a heterogenous or homogenous catalyst for the reaction between iodate and peroxidisulfate ions

Answer 17

1. S2O8- (aq) + 2I- (aq) → 2SO4 2- (aq) + I2 (aq)
2. Fe2+ (aq) ions
3. Homogenous
4. S2O8- + Fe2+ → 2SO4 2- + Fe3+
   Fe3+ + 2I- → I2 + Fe 2+

Question 18

Define complex ion

Answer 18

A transition metal ion bonded to ligands by coordinate bond (dative covalent bond)

Question 19

Define coordinate bond

Answer 19

A shared pair of electrons in which the bonded pair has been provided by one of the bonding atoms only; also known as a dative covalent bond

Question 20

Define ligand

Answer 20

A molecule or ion that can donate a pair of electrons to the transition metal ion

Question 21

How are complex ions formed

Answer 21

When one or more molecules or negatively charged ions bond to a central metal ion- these molecules are ligands
It forms co-ordinate bonds

Question 22

How do you represent the formula of complex ions

Answer 22

1. The complex ion is enclosed inside square brackets with the overall charge of the complex shown outside the square brackets
2. An example is [Cr(H2O)6]3+ formed when CrCl3.6H2O is dissolved in water.
3. Cr3+ is the central metal ion
4. Water acts as a ligand with each water molecule donating a lone pair of electrons from the oxygen atom to the central metal ion to form a co-ordinate bond
5. The co-ordination number is 6 as there are 6 co-ordinate bonds to the central metal ion

Question 23

Define co-ordination number

Answer 23

The total number of coordinate bonds formed between a central metal ion and ligands

Question 24

What is a monodentate ligand

Answer 24

1. A ligand that is able to donate one pair of electrons to a central metal ion

Question 25

List 5 examples of monodentate ligands and their charge

Answer 25

1. Water, H2O, neutral
2. Ammonia, NH3, neutral
3. Chloride, Cl-, -1
4. Cyanide, CN, -1
5. Hydroxide, OH-, -1

Question 26

What is a bidentate ligand

Answer 26

Ligands that can donate two lone pairs of electrons to the central metal ion, forming 2 coordinate bonds

Question 27

List the 2 most common bidentate ligands

Answer 27

1. 1,2-diaminoethane (en) NH2CH2CH2NH2, the Ns has the lone pairs of electrons
2. Ethanedioate COOCOO, the single bond O has the lone pair of electrons

Question 28

Show the formula, oxidation number and coordination number of the complex formed with en and Cobalt

Answer 28

1. [Co(NH2CH2CH2NH2)3]3+
2. Oxidation number of Co is +3
3. The coordination number is 6 because there are three 1,2-diaminoethane ligands and each ligand forms two coordinate bond

Question 29

What is the shape and bond angle of 6 coordinate bonds are formed

Answer 29

1. Octahedral
2. 90 degrees
3. Look at shape p407

Question 30

What are the two different shapes formed with complexes with a coordination number of 4

Answer 30

1. Tetrahedral

2. Square planar

Question 31

Describe the shape, bond angle and give two examples of tetrahedral complex ions

Answer 31

1. 109.5 degrees
2. [CoCl4]2- and [CuCl4]2-
3. Normal tetrahedral shape

Question 32

Describe when square planar shapes occur, the bond angle and the shape

Answer 32

1. Square planar shape occurs in complex ions of transition metals with 8 d-electrons in the highest d-sub-shell.
2. Platinum (II), palladium (II) and gold (III) fall in this category and tend to form square planar complexes
3. Similar shape to octahedral but without ligands above and below the plane
4. Bond angle- 90 degrees

Question 33

Define stereoisomers

Answer 33

Compounds with the same structural formula but with a different arrangement of the atoms in space

Question 34

What are the two types of stereoisomerism complex ions can display

Answer 34

1. Cis-trans

2. Optical

Question 35

When does cis-trans isomerism arise in complex ions

Answer 35

1. Square planar complexes which contain no more than two identical ligands
2. Octahedral complexes containing four of one type of ligand and two of another
3. Octahedral complexes containing two bidentate and two of another

Question 36

Which is the cis isomer and which is the trans isome

Answer 36

1. In the cis-isomer the two ligands are adjacent

2. In the trans-isomer the two ligands are opposite ends

Question 37

When does optical isomerism occur

Answer 37

1. Octahedral complexes containing 3 bidentate ligands for optical isomers or enantiomers
2. Octahedral complexes containing 2 bidentate and two monodentate ligands form optical and cis/trans

Question 38

Name a complex ion isomer that is used in medicine

Answer 38

1. Cis-platin
   [Pt(NH3)2Cl2]
2. Square planar
3. Neutral charge

Question 39

What are the uses of cis-platin in medicine

Answer 39

1. Clinical tests have proven that cis-platin attacks tumours and in many cases the tumours were seen to shrink in size
2. It works by forming a platinum complex inside of a cell which binds to DNA and prevents the DNA of the cell from replicating
3. Activation of the cell’s own repair system leads to apoptosis

Question 40

What are the problems with using cis-platin

Answer 40

1. It is quite toxic and has unpleasant side effects e.g. nausea and hearing loss
2. Also can lead to kidney damage

Question 41

Define ligand substitution

Answer 41

A reaction in which one or more ligands in a complex ion are replaced by different ligands

Question 42

What happens when copper (II) sulfate is dissolved in water

Answer 42

1. The pale blue complex ion [Cu(H2O)6]2+ is formed in aqueous solution

Question 43

What happens when excess aqueous ammonia is added to a solution containing [Cu(H2O)6]2+

Answer 43

1. [Cu(H2O)6]2+ (aq) + 4HN3 (aq) → [Cu(NH3)4(H2O)2]2+ (aq) + 4H2O (l)
2. Pale blue solution→Dark blue solution
3. In the reaction 4 ammonia ligands have replaced four of the water ligands
4. When adding the ammonia drop-wise you should see two different reactions taking place:
   - A pale blue precipitate of Cu(OH)2 is formed in the first stage
   - The Cu(OH)2 precipitate then dissolved in excess ammonia to form a dark blue solution

Question 44

What happens when you mix chloride ions with [Cu(H2O)6]2+

Answer 44

1. Concentrated HCl can be used as a source of chloride ions.
2. When excess HCl is added, pale blue→yellow solution. 6 water ligands are replaced with 4 chloride ligands
3. If water is added to the yellow solution→blue solution forms, but is more dilute and paler than the original blue solution.
4. Intermediate green solution is formed as yellow+blue=green
5. [Cu(H2O)6]2+(aq) + 4Cl-(aq) ↔ [CuCl4]2- (aq) + 6H2O (l)
6. Change in coordination number as chloride ligands are larger than water ligands so fewer can fit around the central Cu2+

Question 45

What forms when Chromium (II) potassium sulfate KCr(SO4)2.12H2O is dissolved in water

Answer 45

1. The complex [Cr(H2O)6)]3+ forms

2. This is a pale purple solution

Question 46

What forms when Chromium (III) sulfate is dissolved in water

Answer 46

1. [Cr(H2O)5SO4]+
2. Green solution
3. One of the water ligands has been replaced by the sulfate SO4 2-

Question 47

What happens when you mix [Cr(H2O)6)]3+ with excess ammonia

Answer 47

1. It forms the complex ion [Cr(NH3)6]3+
2. When the ammonia is added dropwise the reaction happens in two steps
   - Initially grey-green precipitate of Cr(OH)3 is formed
   - The Cr(OH)3 precipitate dissolves in excess ammonia to form complex ion [Cr(NH3)6]3+
3. [Cr(H2O)6)]3+ (aq) + 6NH3 (aq) → [Cr(NH3)6]3+ (aq) + 6H2O (l)
4. Violet→purple

Question 48

Describe the the bonding of haemoglobin to oxygen, carbon dioxide and carbon monoxide

Answer 48

1. Haemoglobin contains 4 protein chains held togeter by weak intermolecular bonds
2. Each protein chain has a haem molecule within its structure
3. The central metal ion in a haem group is Fe2+ which can bind to O2
4. As blood passes through the lungs haemoglobin bonds to oxygen forming oxyhaemoglobin. This releases the oxygen to the body cells when required
5. Haemoglobin can also bond to carbon dioxide, which is carried back to the lungs where it is released and exhaled
6. Carbon monoxide can also bind to the Fe2+ ion in haemoglobin forming carboxyhaemoglobin.
7. If carbon monoxide is breathed in a ligand substitution reactions takes place where the oxygen in haemoglobin is replaced y carbon monoxide
8. Carbon monoxide binds to haemoglobin more strongly than oxygen, so a small proportion can prevent a large proportion of haemoglobin from carrying oxygen
9. The bond is so strong it is irreversible so concentration of carboxyhaemoglobin becomes too high, oxygen transport is prevented leading to death

Question 49

Define precipitation reaction

Answer 49

The formation of a solid from a solution during a chemical reaction. Precipitates are often formed when two aqueous solutions are mixed together.

Question 50

What do transition metal ions react with to create a precipitate

Answer 50

NaOH (aq) and NH3 (aq)

But some of these precipitate will dissolve in excess of NaOH or NH3 to form complex ions in solution

Question 51

State the observations and chemical equation for the reactions between Cu2+ ions and NaOH (aq)

Answer 51

1. Blue solution reacts to form a blue precipitate of copper (II) hydroxide.
2. The solution is insoluble in excess sodium hydroxide
3. Cu2+(aq) + 2OH- (aq) → Cu(OH)2 (s)

Question 52

State the observations and chemical equation for the reactions between Fe2+ ions and NaOH (aq)

Answer 52

1. Pale green solution reacts to form green precipitate of iron (II) hydroxide
2. The precipitate is insoluble in excess sodium hydroxide but turns brown at its surface on standing in air as iron (II) is oxidised to iron (III)
3. Fe2+(aq) + 2OH- (aq) → Fe(OH)2 (s)
4. Fe(OH)2 (s) → Fe(OH)3 (s) in air

Question 53

State the observations and chemical equation for the reactions between Fe3+ ions and NaOH (aq)

Answer 53

1. Pale yellow solution reacts to form an orange-brown precipitate of iron (III) hydroxide
2. The precipitate is insoluble in excess sodium hydroxide
3. Fe3+(aq) + 3OH- (aq) → Fe(OH)3 (s)

Question 54

State the observations and chemical equation for the reactions between Mn2+ ions and NaOH (aq)

Answer 54

1. Pale pink solution reacts to form light brown precipitate of manganese (II) hydroxide which darkens on standing in air
2. The precipitate is insoluble in excess sodium hydroxide
3. Mn2+(aq) + 2OH- (aq) → Mn(OH)2 (s)

Question 55

State the observations and chemical equation for the reactions between Cr3+ ions and NaOH (aq)

Answer 55

1. Violet solution reacts to form a grey-green precipitate of chromium (III) hydroxide
2. The precipitate is soluble in excess sodium hydroxide forming a dark green solution
3. Cr3+(aq) + 3OH- (aq) → Cr(OH)3 (s)
4. Cr(OH)3 (s) + 3OH- (aq) →[Cr(OH)6]3- (aq)

Question 56

What happens when only a few drops of ammonia is added to a transition metal ion

Answer 56

1. If dilute or only a few drops the main ligand is OH-

2. NH3 + H2O↔NH4+ + OH-

Question 57

What is the general equation for the reaction of concentrated/excess ammonia with a transition metal ion

Answer 57

1. [m(H2O)6]n+ + 6NH3 ↔ [M(NH3)6]n+ + 6H2O
2. Except Cu2+
   [Cu(H2O)6]2+ + 4NH3 ↔ [Cu(NH3)4(H2O)2]2+ + 4H2O

Question 58

State the observations and chemical equation for the reactions between Cu2+ ions and NH3 (aq)

Answer 58

1. Cu2+ (aq) + 2OH- (aq) → Cu(OH)2 (s)

2. Cu(OH)2 is a blue precipitate which dissolves in excess ammonia to form deep blue solution of [Cu(NH3)4(H2O)2]2+ (aq)

Question 59

State the observations and chemical equation for the reactions between Cr3+ ions and NH3 (aq)

Answer 59

1. Cr3+(aq) + 3OH- (aq) →Cr(OH)3 (s)

2. Cr(OH)3 is a green precipitate which dissolves in excess ammonia to form [Cr(NH3)6]3+ (aq) which is a purple solution

Question 60

How does Fe2+, Fe 3+ and Mn 2+ react with excess aqueous ammonia

Answer 60

1. In the same way they react with aqueous sodium hydroxide forming precipitates of Fe(OH)2, Fe(OH)3 and Mn(OH)2
2. There is no further reaction with aqueous ammonia and so these precipitates do not dissolve

Question 61

Describe the redox reaction of Fe2+ (aq) ions and manganate (VII) ions

Answer 61

1. In acid conditions it is used as a basis for a redox titration
2. Fe2+ is oxidised to Fe3+
3. MnO4- is reduced to Mn2+
4. The solution containing MnO4- ions is purple and is decolourised by Fe2+ ions to form a colourless solution containing Mn2+ ions
5. MnO4- (aq) + 8H+ (aq) + 5Fe2+ (aq) →Mn2+ + 5Fe3+ (aq) + 4H2O (l)

Question 62

Describe the redox reaction between Fe3+ and I-

Answer 62

1. When Fe3+ reacts with iodide ions the orange-brown Fe3+ ions are reduced to pale green Fe2+ ions
2. This colour change is obscured by the oxidation of iodide ions to form iodine which has a brown colour
3. 2Fe3+ (aq) + 2I- (aq) → 2Fe2+ (aq) + I2 (aq)
4. Fe3+ is reduced to Fe2+
5. I- is oxidised to I2

Question 63

Describe the redox reactions of dichromate (VI) and chromium ions

Answer 63

1. Aqueous dichromate (VI) ions, Cr2O7 2- (aq) have an orange colour
2. Cr3+ (aq) have a green colour
3. Acidified Cr2O7 2- (aq) ions can be reduced by Cr3+ ions by the addition of zinc. Orange→green
4. Cr2O7 2- (aq) + 14H+ (aq) + 3Zn(s) → 2Cr3+ (aq) + 7H2O (l) + 3Zn2+ (aq)
5. With excess of zinc Cr3+ ions are reduced further to Cr2+ which is a paler blue colour. Green→pale blue
6. Zn(s) + 2Cr 3+ (aq) → Zn 2+(aq) + 2Cr 2+ (aq)

Question 64

Describe the oxidation reaction of Cr3+

Answer 64

1. Hot alkaline H2O2 is a powerful oxidising agent and can be used to oxidise Cr3+ to CrO4 2-
2. 3H2O2 + 2Cr3+ + 10OH- → 2CrO4 2- + 8H2O

Question 65

Describe the reaction of Cu2+ and Cu+ with iodide ions

Answer 65

1. When aqueous Cu2+ ions react with excess iodide ions a redox reaction occurs
2. I- is oxidised to brown iodine
3. Cu2+ is reduced to Cu+
4. The Cu+ forms a white precipitate of copper(I) iodide
5. 2Cu 2+ (aq) + 4I- (aq) → 2CuI (s) + I2 (s)

Question 66

Describe the disproportionation reaction of Cu+ ions with H2SO4

Answer 66

1. When solid copper (I) oxide Cu2O reacts with hot dilute sulfuric acid, a brown precipitate of copper is formed together with a blue solution of copper (II) sulfate.
2. In this reaction copper (I) have been simultaneously oxidised and reduced
3. Cu2O (s) + H2SO4 (aq) →Cu(s) + CuSO4 (aq) + H2O (l)

Question 67

Describe how to identify transition metal ions

Answer 67

1. Aqueous sodium ydroxide produced precipitates with aqueous transition metal ions.
2. These reactions can be used to identify transition metal ions in an unknown solution

Question 68

Describe how to identify ammonium ions NH4 +

Answer 68

1. When heated with hydroxide ions NH+ reacts to produce ammonia gas NH3
2. NH4+(aq) + OH-(aq) →NH3 (g) + H2O (l)
3. Gently heat NaOH with the unknown solution and damp red litmus paper will turn blue

Question 69

Describe how to identify Carbonate ions

Answer 69

1. Ass dilute nitric acid
2. Effervescence as CO2 is evolved
3. CO3 2- (aq) + 2H+ → CO2 (g) + H2O (l)

Question 70

Describe how to identify sulfate ions

Answer 70

1. Add Ba2+ ions
2. White precipitate of BaSO4 is formed
3. Ba2+ (aq) + SO4 2- (aq) → BaSO4 (s)