A solution containing 2.675 g of `CoCl_(3).6NH_(3)` (molar mass `= 267.5 g mol^(-1)`) is passed through a cation exchanger. The chloride ions obtained

Question

A solution containing 2.675 g of `CoCl_(3).6NH_(3)` (molar mass `= 267.5 g mol^(-1)`) is passed through a cation exchanger. The chloride ions obtained

A solution containing 2.675 g of `CoCl_(3).6NH_(3)` (molar mass `= 267.5 g mol^(-1)`) is passed through a cation exchanger. The chloride ions obtained is solution were treated with excess of `AgNO_(3)` to give 4.73 g of `AgCl` (molar mass = `143.5 g mol^(-1)`). The formula of the complex is (At. mass of Ag = 108 u)
A. `[CoCl_(3)(NH_(3))_(3)]`
B. `[CoCl(NH_(3))_(5)]Cl_(2)`
C. `[Co(NH_(3))_(6)]Cl_(3)`
D. `[CoCl_(2)(NH_(3))_(4)]Cl`

Monjur Alahi

4 views

2025-01-04 04:42

1 Answers

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Salim Ahmed Kawsar · Accepted Answer · 2023-02-05T15:29:48+06:00

Salim Ahmed Kawsar

Correct Answer - 3
Moles of the complexes `= (2.675)/(267.5) = 0.01`
moles of AgCl precipitated `= (4,78)/(143.5) = 0.033`
Thus, 1 mole of the complex will precipitate `AgCl(0.033)/(0.01) = 3` moles. That means 1 molecule of the complex contains 3 ionizable Cl.
Hence, the formula is `[Co(NH_(3))_(6)]Cl_(3)`

4 views Answered 2023-02-05 15:29