In aqueous solution, (X) reacts with molecular oxygen in the presence of excess liquor to give a new complex Y. The number of unpaired electrons in X and Y are, respectively
1. 3,1
2. 3,0
3. 3,3
4. 7,0
The number of geometrical isomers of , where en = ethylenediamine, is
1. 2
2. 3
3. 4
4. 1
The energies of orbitals in octahedral and tetrahedral transition metal complexes are such that
1. in both tetrahedral and octahedral complexes
2. in both tetrahedral and octahedral complexes
3. in tetrahedral but in octahedral complexes
4. in tetrahedral but in octahedral complexes
The geometry and the number of the unpaired electron(s) of , respectively, are
1. Tetrahedral and 1
2. Square planar and 1
3. Tetrahedral and 5
4. Square planar and 5
Among the following complexes, the one that can exhibit optical activity is
1.
2.
3.
4. trans-
2.335 g of compound X (empirical formal ) upon treatment with excess solution produces 1.435 g of a white precipitate. The primary and secondary valences of cobalt in compound X, respectively are
[Given Atomic mass: Co = 59, Cl = 35.5, Ag = 108]
1. 3, 6
2. 3, 4
3. 2, 4
4. 4, 3
1. (i) and (ii)
2. (i) and (iii)
3. (ii) and (iii)
4. (ii) and (iv)
Among the following complexes, the one that can exist as facial (fac) and meridional (mer) isomers is
1.
2.
3.
4.
Hybridization and geometry of are
1. and tetrahedral
2. and square planar
3. and tetrahedral
4. and square planar
The total number of geometrical isomers possible for an octahedral complex of this type is
(M = transition metal; A, B and C are monodentate ligands)
1. 3
2. 4
3. 5
4. 6