In following pairs, the one in which both transition metal ions are colourless is :
Sc3+, Zn2+
Ti4+, Cu2+
V2+, Ti3+
Zn2+, Mn2+
The Correct Option is A
Approach Solution - 1
To determine which pair of transition metal ions is colourless, we need to understand the concept of colour in transition metals. The colour in transition metal ions is primarily due to the electronic transitions between the d-orbitals. Here, we will analyze each pair to identify if they're colourless:v
- Sc3+ and Zn2+:
- Sc3+: Scandium ion Sc3+ has an empty d-subshell (d0 configuration) as all three electrons are removed upon forming the ion. No d-d transitions can occur, thus making it colourless.
- Zn2+: Zinc ion Zn2+ has a completely filled d-subshell with an electronic configuration of [Ar]3d10. It does not allow d-d transitions, which implies it is also colourless.
- Ti4+ and Cu2+:
- Ti4+: Similar to Sc3+, Ti4+ has a d0 configuration, which makes it colourless.
- Cu2+: Copper ion Cu2+ has a d9 configuration, which supports d-d transitions, making it coloured.
- V2+ and Ti3+:
- V2+: Vanadium ion V2+ has a d3 configuration that allows d-d transitions, implying it is coloured.
- Ti3+: Titanium ion Ti3+ has a d1 configuration, allowing for d-d transitions and therefore is coloured.
- Zn2+ and Mn2+:
- Zn2+: As mentioned earlier, Zn2+ is colourless due to the fully filled d-subshell.
- Mn2+: Manganese ion Mn2+ has a d5 configuration. It allows electronic transitions within partly filled d-orbitals, making it coloured.
Based on the above analysis, the pair Sc3+ and Zn2+ is the only one where both ions are colourless. This is due to the absence of d-d transitions in Sc3+ and the fully filled 3d-subshell of Zn2+.
Approach Solution -2
Scandium ions (Sc+3) and zinc ions (Zn+2) are colorless due to the absence of unpaired electrons. In contrast, transition metal ions such as copper ions (Cu+2), titanium ions (Ti+3), vanadium ions (V+2), and manganese ions (Mn+2) exhibit color as they possess unpaired electrons.
When these transition metal ions absorb light in the visible region, an unpaired electron from a lower energy d orbital is excited to a higher energy d orbital. The observed color is complementary to the absorbed light frequency.
So, the correct option is (A): Sc3+, Zn2+
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