DM 1, 2, 3.1 Flashcards
what is a transition metal
D block element that forms one or more stable ions with an incomplete D subshell
what are the characteristic properties of transition metals
- they have variable oxidation states
- act as catalysts / catalytic activity (elements and compounds)
- coloured compounds as solids and in solution
- form complexes
describe the electron configuration of d block elements
- across the first row, every element has one more proton and electron than the previous element and enters the 3d subshell which IS NOT the outermost shell because 4s gets filled first
why are zinc and scandium NOT transition metals
- transition metal forms a stable ion with an incomplete d subshell
- Zn only forms the ion Zn 2+ with a FULL d orbital
- Sc only forms Sc 3+ with an empty d orbital
- they are not transition metals but they are d block elements
why are chromium and copper different, and what are their electron configurations (with an argon core)
- electrons always arrange themselves to give the lowest energy and their electronic arrangements work out to give a lower energy than if they were arranged how you would expect them to be
- Cr [Ar] 3d5 4s1
- Cu [Ar] 3d10 4s1
which electrons are lost first when transition metals form ions
- the electrons in the 4s orbitals are always lost first
why does copper only have the oxidation state of +1
because d5 and d10 are particularly stable electronic arrangements
how can iron content be analysed, describe the process
- using a redox titration
- depends on the variable oxidation states of transition metals
- iron (II) ion sare oxidised to iron (III) by potassium manganate (VII)
- known volume of iron (II) solution is titrated with potassium manganate solution of known concentration and volume
- end point is when the first permanent pink colour is observed (MnO4 is in excess)
what can be used instead of potassium manganate (VII) solution in a redox titration
- acidified potassium dichromate
what is a catalyst
- something that alters the rate of a chemical reaction without being used up in the process
what makes transition metals such good catalysts
- the availability of the 3d and the 4s electrons and the ability to change oxidation state
transition metals as heterogeneous catalysts
- usually a solid transition metal with liquid or gas
- they use the 3d and 4s electrons on the metal surface to make weak bonds (chemisorption) to reactants
- reaction occurs and the bonds break to release the products
transition metals as homogeneous catalysts
- usually the reaction taking place in the aqueous phase
- usually a transition metal ion forms an intermediate compound with one or more of the reactants which breaks down to form the products
what are the colours of the following transition metal ions
1. MnO4 -
2. Mn 2+
3. Fe 2+
4. Fe 3+
5. Cu +
6. Cu 2+
- deep purple
- pale pink
- green
- orange / brown
- unstable in aqueous solution
- blue
why are transition metals coloured
- often related to their partially filled d-orbitals in the metal ion
