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JEE Chemistry Solved Question Paper 2016

Multiple Choice Questions

The number of oxygen atoms in 4.4gm of CO₂ is

1.2 × 10²³
6 × 10²²
6 × 10²³
12 × 10²³

If the bond energies of H-H, Br-Br and H-Br are 433, 192 and 364 kJ mol^-1 respectively, then $∆$ H° for the reaction-

H₂ (g) + Br₂ (g) → 2HBr (g) is

-261 kJ
+103 kJ
+261 kJ
-103 kJ

In the reaction,

Fe(OH)₃ (s) $⇌$ Fe³⁺ (aq) + 3OH^- (aq), if the concentration of OH^- ions is decreased by $\frac{1}{4}$ times, then the equilibrium concentration of Fe³⁺ will increase by

8 times
16 times
64 times
4 times

The correct statement regarding entropy is

at absolute zero temperature, entropy of a perfectly crystalline solid is zero
at absolute zero temperature, the entropy of a perfectly crystalline substance is positive
at absolute zero temperature, the entropy of all crystalline substances is zero
at 0°C, the entropy of a perfect crystalline solid is zero

Equilibrium constants K₁ and K₂ for the following equilibria,

I. NO (g) + $\frac{1}{2}$ O₂ (g) $⇌$ NO₂ (g)

II. 2NO₂ (g) $⇌$ 2NO (g) + O₂ (g) are related as

K₁ = $\sqrt{K_{2}}$
K₂ = $\frac{1}{K_{1}}$
K₁ = 2K₂
K₂ = $\frac{1}{K_{1}^{2}}$

The shape of XeF₆is

square planar
distorted octahedral
square pyramidal
pyramidal

CO is a stronger ligand than Cl^-, because

CO is a neutral molecule
CO has $π$ -bonds
CO is poisonous
CO is more reactive

Which of the following sequence is correct regarding field strength of ligands as per spectrochemical series?

SCN^- < F^- < CN^- < CO
F^- < SCN^- < CN^- < CO
CN^- < F^- < CO < SCN^-
SCN^- < CO < F^- < CN^-

9.
A liquid can exist only

between triple and critical points

at any temperature above melting point

between melting and critical points

between boiling and melting points

between boiling and melting points

A liquid can exist between boiling point and melting point. These both describe temperature at which phase change occurs in substances. The main difference between boiling point and melting point is that melting point is defined as the temperature at which solid and liquid phases are in equilibrium whereas the boiling point is the temperature at which the vapour pressure of a liquid is equal to external pressure.