Transition Metals

Question 1

What is a transition metal?

Answer 1

Metals that contain an incomplete d sub shell in at least one of their ions

Question 2

Where are transition metals found?

Answer 2

In the ‘d block’ (middle, group 3)

Question 3

Why are Sc and Zn technically NOT transition metals, despite being found in the d block?

Answer 3

They have no or complete d shells

Sc 3+ = [Ar] Zn 2+ = [Ar] 3d10

Question 4

What is a ligand?

Answer 4

An atom or ion which donates a lone pair to form a co-ordinate bond to metal

Question 5

What is a complex?

Answer 5

A metal ion with ligands co-ordinately bonded to it

Question 6

What is the co-ordination number?

Answer 6

The number of co-ordinate bonds from ligands to the metal ion in the complex

Question 7

What is a bidentate ligand?

Answer 7

A ligand which forms two co-ordinate bonds. Two different lone pairs on the molecule donate two electron pairs

Question 8

Give 2 examples of a monodentate ligand

Answer 8

H2O: :OH- :NH3 :CN- :Cl

Question 9

When can optical isomerism occur?

Answer 9

Can occur when bidentate ligands are attached to an octahedral complex

Question 10

Give an example of a multidentate ligand

Answer 10

EDTA 4-, haem, [Pt(NH3)2Cl2] (cisplatin), [Ag(NH3)2]+

Question 11

Why is EDTA 4- such an effective ligand?

Answer 11

It has 6 lone pairs, and so can form 6 points of attachment

Question 12

[Cu(H2O)6]2+ is added with an unknown substance. The solution turns from light blue to dark blue. What was the unknown substance?

Answer 12

Ammonia

Question 13

Ammonia is added to [Cu(H2O)6]2+. What are the products formed?

Answer 13

[Cu(NH3)4(H2O)2]2+ + 4H2O

Question 14

Concentrated HCl is added to [Cu(H2O)6]2+. What are the products formed?

Answer 14

[CuCl4]2- + 6H2O

Question 15

Ammonia is added to [Cu(H2O)6]2+. What is the colour change observed?

Answer 15

Light blue to dark blue

Question 16

Concentrated HCl is added to [Cu(H2O)6]2+. What is the colour change observed?

Answer 16

Light blue to yellow

Question 17

Concentrated HCl is added to [Cu(H2O)6]2+. The solution should turn yellow, but it looks more green. Why?

Answer 17

Because it’s going from blue to yellow

Question 18

Ammonia is added to [Co(H2O)6]2+. What are the products formed?

Answer 18

[Co(NH3)6]2+ + 6H2O

Question 19

Ammonia is added to [Co(H2O)6]2+. What is the colour change observed?

Answer 19

Pink to pale brown

Question 20

Concentrated HCl is added to [Co(H2O)6]2+. What is the colour change observed?

Answer 20

Pink to dark blue

Question 21

Concentrated HCl is added to [Co(H2O)6]2+. What are the products formed?

Answer 21

[CoCl4]2- + 6H2O

Question 22

Why is the colour change so dramatic when concentrated HCl is added to [Co(H2O)6]2+?

Answer 22

The colour change is dramatic because the co-ordination number also changes (Cl is big so can’t fit round octahedral)

Question 23

What is the chelate effect?

Answer 23

The substitution of monodentate ligands (eg H2O) by multidentate ligands

Question 24

What is a use of a chelate?

Answer 24

It is useful in dealing with heavy metal poisoning, as it ‘cages’ up and so limits the poisoning effects

Question 25

What is the equation to work out the energy change, using Plank’s constant and lamda?

Answer 25

Energy = hv where h = Plank’s constant and lamda = the speed of light/wavelength

Question 26

What is Plank’s constant?

Answer 26

6.63 x10^-34 Js

Question 27

What is the speed of light?

Answer 27

3x10^8 ms^-1

Question 28

What are the factors that affect the size of energy gap?

Answer 28

The metal, the oxidation state, the ligands, the co-ordination number

Question 29

Why are some substances able to give different colours/observations?

Answer 29

They have a variable oxidation state

Question 30

KMnO4 is titrated against acidified Fe2+. What colour change is observed?

Answer 30

Colourless to pink

Question 31

KMnO4 is used in a redox titration against acidified Fe2+. After all the acid has been used up, the colour change observed is brown/dark red rather than pink. What has happened?

Answer 31

There was not enough acid to full oxidise the MnO4-

Instead MnO2 formed

Question 32

What colour is MnO4-?

Answer 32

Purple

Question 33

A student is choosing an acid to acidify Fe2+ for a redox titration. The options are dilute H2SO4, conc H2SO4 and dilute HCl. Which acid should she choose? Give reasons why the others are unsuitable.

Answer 33

Should choose dilute H2SO4
Conc H2SO4 is an oxidising agent, but there is already an oxidising agent present
Dilute HCl - Cl could be oxidised (Cl2 gas), so the titration would larger and thus inaccurate.

Question 34

The complex ion formed in aqueous solution between cobalt (II) ions and chloride ions is a different colour from the [Co(H2O)6]2+ ion. Explain why these complexes have different colours

Answer 34

Ligands are different and so cause different d orbital splitting. This means different amounts of energy are required to promote electron to the next energy level and so different frequencies of light are absorbed. Therefore different wavelengths/colours of light are transmitted

Question 35

Fill the blanks. Heterogenous catalysts reactions often involve a ____ catalyst and _____ reactants.

Answer 35

solid catalyst and gaseous reactants

Question 36

Describe alternate pathway a heterogenous catalyst provides

Answer 36

Reactants adsorbed onto the surface (active sites)
- weakens bonds
- brings molecules closer
- more favourable orientation
Reaction occurs
Products desorbed

Question 37

What is the issue if a catalyst bonds too strongly to a reactant?

Answer 37

It will never let go - both the catalyst and reactant will be unable to take part in the reaction

Question 38

What is the issue if a catalyst bonds too weakly to a reactant?

Answer 38

If it bonds too weakly, it will not have the desired affects.

Question 39

What is the contact process and which catalyst does it involve?

Answer 39

A way of producing H2SO4

Involves a vanadium (V) oxide catalyst

Question 40

Give two half equations to show the contact process

Answer 40

SO2 + V2O5 –> V2O4 + SO3

V2O4 + 1/2 O2 –> V2O4

Question 41

What is catalyst poisoning?

Answer 41

When the catalyst is covered by a substance which blocks the active sites, thus making it ineffective

Question 42

Fill in the blank. Homogenous catalysts are mostly involved in reactions in a _____ with a catalyst in a _______

Answer 42

Solution for both

Question 43

What is an autocatalyst?

Answer 43

A catalyst that is also one of the products of the reaction being catalysed.

Question 44

Give a half equation showing the reduction of manganate

Answer 44

MnO4- + 8H+ + 5e- –> Mn2+ + 4H2O

Question 45

Give two half equations to show the autocatalysis reaction of iodide ions and S2O8 2- to form iodine and sulphate ions

Answer 45

2I- + Fe3+ –> I2 + 2Fe3+

S2O8 2- + 2Fe2+ –> 2SO4 2- + 2Fe3+

Question 46

Give 2 half equations to show the reaction of MnO4- with C2O4 2-

Answer 46

MnO4- + 8H+ + Mn2+ –> 5Mn3+ + 4H2O

C2O4 2- + 2Mn3+ –> 2CO2 + 2Mn2+

Question 47

Give the formula of cisplatin

Answer 47

[Pt(NH3)2Cl2]

Question 48

How many lone pairs are there on EDTA 4-?

Answer 48

6

Question 49

Give the formula of ethanedioate

Answer 49

C2O4 2-

Question 50

Give the formula of 1,2-diaminoethane

Answer 50

AKA en

H2N-CH2-CH2-NH2