The number of (i) sp2 hybridized carbon atoms and (ii) bonds are present in the following compound are:
1. 7, 5
2. 8, 6
3. 7, 6
4. 8, 5
The decreasing order of ionic character of the N-H, F-H, C-H, and O-H, is :
1. | N-H > F-H > C-H > O-H |
2. | F-H > N-H > C-H > O-H |
3. | O-H > C-H > F-H > N-H |
4. | F-H > O-H > N-H > C-H |
The correct increasing order of ionic character of the following molecule is:
LiF, K2O, N2, SO2, ClF3
1. N2 < SO2 < ClF3 < K2O < LiF
2. N2 > SO2 > ClF3 > K2O < LiF
3. N2 > SO2 > K2O > ClF3 > LiF
4. LiF > K2O < ClF3 > SO2 > N2
From the perspective of molecular orbital theory, which statement is false?
1. | is not a stable molecule. |
2. | is not stable but is expected to exist. |
3. | Bond strength of is maximum amongst the homonuclear diatomic molecules belonging to the second period. |
4. | The order of energies of molecular orbitals in molecule is:
|
Combination of atoms A and B that forms an anti-bonding molecular orbital is :
1.
2.
3.
4.
A pair in which both species are not likely to exist is:
1. | \(H^+_2,He^{2-}_2\) | 2. | \(H^-_2,He^{2+}_2\) |
3. | \(H^{2+}_2,He_2\) | 4. | \(H^+_2,He^{2+}_2\) |
Among the following atomic orbital overlaps, the non-bonding overlap is:
1. | 2. | ||
3. | 4. |
In , formal charge on every oxygen atom and P-O bond order respectively are:
1. -0.75 and 1.25
2. -0.5 and 2
3. 1 and 1.5
4. -0.75 and 2
In a regular octahedral molecule, MX6, the number of X–M–X bonds at 180º is:
1. | Two | 2. | Six |
3. | Four | 4. | Three |
In NO3– ion, the number of bond pair and lone pair of electrons on nitrogen atom are respectively:
1. | 2, 2 | 2. | 3, 1 |
3. | 1, 3 | 4. | 4, 0 |