In terms of polar character which one of the following orders is correct?
H2S < NH3 < H2O < HF
H2O < NH3 < H2S < HF
HF < H2O < NH3 < H2S
NH3 < H2O < HF < H2S
The bond lenght (pm) of F2, H2, Cl2 and I2, respectively is:
144, 74, 199, 267
74, 144, 199, 267
74, 267, 199, 144
144, 74, 267, 199
Which one of the following statement is correct for d4 ions [ P = pairing energy]
When Δ0 > P, low-spin complex form
When Δ0 < P, low-spin complex form
When Δ0 > P, high-spin complex form
When Δ0 > P, both high and low-spin complex form
The species having pyramidal shape according to VSEPR theory is
SO3
BrF3
SiO
OsF2
D.
OsF2
SOF2 has sp3 hybridization. According to VSEPR theory, we can conclude that the shape of is a trigonal pyramid.
Sulphur has a non-bonding pair of electrons on top, three downward legs of the pyramid are bonded to oxygen with a double bond & to each fluorine with a single bond.
OsF2 central atom sulphur contain 3 b p and 1 l p hence, OsF2, is pyramidal. But it is gven as OsF2.
It is wrong question.
The correct statement about ICl5 and ICl is:
ICl5 is trigonal bipyramidal and ICl is tetrahedral
ICl5 is square pyramidal and ICl is tetrahedral
both are isostructural
ICl5 is square pyramidal and ICl is square planar.
HF has highest boiling point among hydrogen halides, because it has:
Strongest van der Waal’s interactions
Lowest ionic character
Strongest hydrogen bonding
Lowest dissociation enthalpy
Among the following molecules/ ions,
Which one is diamagnetic and has the shortest bond length?
C
N
O2
The correct statement among I to III are:
(I) Valence bond theory cannot explain the color exhibited by transition metal complexes.
(II) Valence bond theory can predict quantitatively the magnetic properties of transition metal complexes.
(III) Valence bond theory cannot distinguish ligands as weak and strong field ones.
(I) and (III) only
(II) and (III) only
(I), (II) and (III)
(I) and (II) only