Chemistry Question Bank

In which one of the following gaseous equilibria, p K is less than c K ? (CMC LUDHIYANA 2010) (a) N O 2NO (b) 2SO O 2SO (c) 2HI H I (d) N O 2NO

Hydrolysis of sucrose is given by the following reaction : Sucrose H O Glucose Fructose If the equilibrium constant (KC) is 2 10 x at 300 K, the value of o rG at the same temperature will be (NEET 2020) (a) 8.3…

Which one of the following conditions will favour maximum formation of the product in the reaction, A2 (g) + B2 (g) X2 (g); rH = – X kJ? (NEET 2018)

A 20 litre container at 400 K contains CO2(g) at pressure 0.4 atm and an excess of SrO (neglect the volume of solid SrO). The volume of the container is now decreased by moving the movable piston fitted in the contain…

The equilibrium constants of the following are N 3H 2NH ;K N O 2NO;K H O H O;K The equilibrium constant (K) of the reaction : K 2NH O 2NO 3H O will be (NEET 2017) (a) K K K (b) K K K (c) K K K (d) K K K

Which of the following statements is correct for a reversible process in a state of equilibrium? (NEET 2015) (a) o G 2.30RT log K (b) o G 2.30 RT log K

If the value of equilibrium constant for a particular reaction is 1.6 10 x , then at equilibrium the system will contain (NEET 2015)

If the equilibrium constant for 2 g 2 g g N O 2NO is K, the equilibrium constant for 2 g 2 g g N O NO will be (NEET 2015)

Which of the following statement is correct for a reversible process in a state of equilibrium ? (AIPMT 2015) (a) G = 2.30 RT log K (b) o G = –2.30 RT log K (c) o G = 2.30 RT log K (d) G = – 2.30 RT log K

The relation between p c K and K for the following reaction is (JCECE 2010) N (g) 3H (g) 2NH (g) -> (a) p c K K (RT) (b) c p K K (RT) (c) c p K K (RT) (d) p c K K (RT)

At 450 K, p K 2.0 / bar x for the given reaction at equilibrium 2SO (g) O (g) 2SO (g) (HARYANA PMT 2010) What is c K at this temperature ? (a) 73.8 x (b) 7.38 10 x

In which of the following equilibrium Kc and Kp are not equal? (AIPMT 2010) (a) 2C s O g 2CO g (b) 2NO g N g O g p K (c) SO g NO g SO g NO g (d) H g I g 2HI g

For the reaction, AB g A g B g AB is 33% dissociated at a total pressure of p. Therefore, p is related to by one of the following options (AMU 2010)

For an equilibrium reaction, the rate constants for the forward and the backward reaction are 2.38 × 10–4 and 8.15 × 10–5 respectively. What will be the equilibrium constant for the reaction ? (RPMT 2010)

For the equilibrium, 2NO (g) N O (g) 14.6 kcal, (CPMT 2009) Increase in temperature

Which reaction is not affected by change in pressure? (AFMC 2009) (a) (g) (g) (g) H I 2HI (b) (s) (g) (g) 2C O 2CO (c) (s) (g) (g) N 3H 2NH (d) (g) (g) (g) PCl PCl Cl

Assertion For the reaction, 2NO g O g 2NO Increase in pressure favours the formation of NO2. Reason The reaction is exothermic (AIIMS 2009)

Standard free energy change for an equilibrium is zero, the value of Kp is (HARYANA PMT 2009)

Two moles of each reactant A and B are taken in a reaction flask. They react in the following manner, A(g) B(g) C(g) D(g) At equilibrium, it was found that the concentration of C is triple to that of B. The equili…

p K and p K are the equilibrium constants of the two reactions, given below (AMU 2009) N g H g NH g N g 3H g 2NH g Therefore p K and p K are related by (a) p p K K (b) p p K K (c) p p K 2K (d) p p K K

2HI g H g I g The equilibrium constant of the above reaction is 6.4 at 300 K. If 0.25 mole each of H and 2I are added to the system, the equilibrium constant will be (KCET 2009)

5 moles of SO and 5 moles of O are allowed to react. At equilibrium, it was found that 60% of SO is used up. If the total pressure of the equilibrium mixture is one atmosphere, the partial pressure of is (KCET 2009)

Three moles of PCl , three moles of PCl and two moles of Cl are taken in a closed vessel. If at equilibrium the vessel has 1.5 moles of PCl , the number of moles of PCl present in it is (KCET 2008)

Chemical equilibria are important in numerous … (X) … and …. (Y) … processes. Here, (X) and (Y) refer to

Equilibria involving O2 molecules and the protein heamoglobin play a crucial role