Transition Metals part 2 Flashcards
What happens to electrons in the transition metals to cause them to form coloured compounds
d electrons move from ground state to excited state when light is absorbed
Show the equation for the change in energy between the ground state and the excited state of the electrons
∆E = hν = hc/λ
where
delta E= change in energy
h= planck’s constant
v= frequency of light absorbed (Hz)
c= speed of light
λ = wavelength of light absorbed (m)
Name things the size of ∆E is dependent on
- the central metal ion and its oxidation state
- the type of ligand
- coordination number
What type of apparatus can be used to determine what transition metal is present in a compound
Colorimeter
Explain how colorimetry can be used to identify transition metal ions in a solution
Light source emits white light
Which is passed through a colour filter
Shined at sample
Colorimter measures amount of light absorbed
More concentrated solutions absorb more light - this can be used to determine concentrations of ions in solution
Compare absorption to known concentrations using calibration graph
What is the energy gap
When a transition metal ion is unbonded all the electrons are all on the same energy level
When the ion bonds with ligands some of the d subshell electrons move into an elevated shell so there is a gap in energy between the two levels
What does the size of the frequency of light absorbed depend on
∆E
The greater ∆E, the higher the frequency of light absorbed
Explain absorption/reflection of light in terms of what colours of transition metals we observe
Any frequencies of light nor absorbed are reflected or transmitted
On the colour wheel the colour absorbed is opposite the colour observed (reflected)
Colour of V2+
Violet
Colour of V3+
Green
Colour of [VO]2+
Blue
Colour of [VO2]+
yellow
