One mole of the octahedral complex compound gives moles of ions on dissolution in water. One mole of the same complex reacts with excess of solution to yield two moles of . The structure of the complex is:
- A
- B
- C
- D
One mole of the octahedral complex compound gives moles of ions on dissolution in water. One mole of the same complex reacts with excess of solution to yield two moles of . The structure of the complex is:
Correct answer:A
Standard Method
Given: One mole of gives moles of ions in water and forms two moles of with excess .
Find: The correct structure of the complex.
The number of ions formed in water tells us how many species are present after dissociation, and the amount of formed tells us how many chloride ions are outside the coordination sphere.
For Option A, the complex is
On dissolution in water, it gives
So total ions .
With excess , the two free chloride ions react as
Thus, this option gives exactly two moles of .
Hence, this structure satisfies both given conditions.
Therefore, the correct option is A, and the structure is .
Option-wise Check
Given: The complex gives ions in water and yields moles of with excess .
Find: Which option matches both observations.
So only Option A satisfies both conditions.
Therefore, the correct option is A.
Assuming that all three chloride ions are free ions. This is wrong because only chloride ions outside the coordination sphere react immediately with . First identify coordinated and free chloride ions separately.
Using only the total ion count and ignoring the test. This is wrong because the ion count alone does not tell which chlorides are free. Use both observations together to determine the structure.
Confusing coordinated chloride with counter ion chloride. This is wrong because coordinated chloride remains inside the complex ion and does not precipitate as under this test. Count only outer-sphere chloride ions for precipitation.
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