For the reaction
For the reaction, Ag(CN)ɵ2⇔Ag⊕+2CNɵ, the equilibrium constant at 25∘C is 4×10^−19 Calculate the silver ion concentration in solution which was originally 0.10 M in KCN and 0.03 M in AgNO3.
02
Jun
For the reaction, Ag(CN)ɵ2⇔Ag⊕+2CNɵ, the equilibrium constant at 25∘C is 4×10^−19 Calculate the silver ion concentration in solution which was originally 0.10 M in KCN and 0.03 M in AgNO3. Ag(CN)ɵ2⇔Ag⊕+2CNɵ For the reaction the equilibrium constant at 25∘C is 4×10^−19 Calculate the silver ion concentration in solution which was originally 0.10 M in KCN [...]
For the reaction, 2A + B → products, when the concentrations of A and B both were doubled, the rate of the reaction increased from 0.3 mol L^−1s^−1 to 2.4 mol L^−1s^−1. When the concentration of A alone is doubled, the rate increased from 0.3 mol L^−1s^−1 to 0.6 mol L^−1s^−1. Which one of the following statements is correct ?
02
Jun
For the reaction, 2A + B → products, when the concentrations of A and B both were doubled, the rate of the reaction increased from 0.3 mol L^−1s^−1 to 2.4 mol L^−1s^−1. When the concentration of A alone is doubled, the rate increased from 0.3 mol L^−1s^−1 to 0.6 mol L^−1s^−1. Which one of the [...]
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Chapter 17 - Chemical Kinetics
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JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019
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2A + B → products ,
For the reaction ,
the rate increased from 0.3 mol L^−1s^−1 to 0.6 mol L^−1s^−1. Which one of the following statements is correct ? ,
the rate of the reaction increased from 0.3 mol L^−1s^−1 to 2.4 mol L^−1s^−1. When the concentration of A alone is doubled ,
when the concentrations of A and B both were doubled ,
For the reaction, CO(g) + 2H2(g) ⇋ CH3OH(g) hydrogen gas is introduce into a five litre flask at 327° C, containing 0.2 mole of CO(g) and a catalyst, until the pressure is 4.92 atm. At this point 0.1 mole of CH3OH(g) is formed. Calculate the equilibrium constant, Kp and Kc.
02
Jun
For the reaction, CO(g) + 2H2(g) ⇋ CH3OH(g) hydrogen gas is introduce into a five litre flask at 327° C, containing 0.2 mole of CO(g) and a catalyst, until the pressure is 4.92 atm. At this point 0.1 mole of CH3OH(g) is formed. Calculate the equilibrium constant, Kp and Kc. CO(g) + 2H2(g) ⇋ CH3OH(g) [...]
For the reaction, 2NO + Br2 → 2NOBr following mechanism has been given: (1) NO+Br2 ⇌Fast NOBr2 (2) NOBr2 +NO gives Slow 2NOBr Hence, rate law is
02
Jun
For the reaction, 2NO + Br2 → 2NOBr following mechanism has been given: (1) NO+Br2 ⇌Fast NOBr2 (2) NOBr2 +NO gives Slow 2NOBr Hence, rate law is 2NO + Br2 → 2NOBr following mechanism has been given: (1) NO+Br2 ⇌Fast NOBr2 (2) NOBr2 +NO gives Slow 2NOBr Hence For the reaction rate law is June [...]
For the reaction, CO(g)+H2O↽−−⇀CO2(g)+H2(g) at a given temperature the equilibrium amount of CO2(g) can be increased by
17
Nov
For the reaction, CO(g)+H2O↽−−⇀CO2(g)+H2(g) at a given temperature the equilibrium amount of CO2(g) can be increased by CO(g)+H2O↽−−⇀CO2(g)+H2(g) at a given temperature the equilibrium amount of CO2(g) can be increased by For the reaction November 17, 2020 Category: Chapter 7 - Equilibrium , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions [...]
For the reaction, SO2(g)+1/2O2(g)⇌SO3(g) if KP=KC(RT)x X where, the symbols have usual meaning, then the value of x is (assuming ideality)
17
Nov
For the reaction, SO2(g)+1/2O2(g)⇌SO3(g) if KP=KC(RT)x X where, the symbols have usual meaning, then the value of x is (assuming ideality) For the reaction SO2(g)+1/2O2(g)⇌SO3(g) if KP=KC(RT)x X where the symbols have usual meaning then the value of x is (assuming ideality) November 17, 2020 Category: Chapter 7 - Equilibrium , Chemistry , JEE Adv [...]
For the reaction, 2SO2(g)+O2(g)↽−−⇀2SO3(g), ΔH = −57⋅2 kJ mol^−1 and Kc = 1.7×10^16. Which of the following statement is INCORRECT?
16
Nov
For the reaction, 2SO2(g)+O2(g)↽−−⇀2SO3(g), ΔH = −57⋅2 kJ mol^−1 and Kc = 1.7×10^16. Which of the following statement is INCORRECT? 2SO2(g)+O2(g)↽−−⇀2SO3(g) For the reaction ΔH = −57⋅2 kJ mol^−1 and Kc = 1.7×10^16. Which of the following statement is INCORRECT? November 16, 2020 Category: Chapter 7 - Equilibrium , Chemistry , JEE Adv and Mains [...]
For the reaction, 1 g mole of CaC03 is enclosed in 5 L container CaC03(s)−−>CaO(s)+C02(g) Kp=1.16 at 1073 K then per cent dissociation of CaC03 is
16
Nov
For the reaction, 1 g mole of CaC03 is enclosed in 5 L container CaC03(s)−−>CaO(s)+C02(g) Kp=1.16 at 1073 K then per cent dissociation of CaC03 is 1 g mole of CaC03 is enclosed in 5 L container CaC03(s)−−>CaO(s)+C02(g) Kp=1.16 at 1073 K then per cent dissociation of CaC03 is For the reaction November 16, 2020 [...]
For the reaction, H2(g) + CO2(g)⇌CO(g)+H2O(g) If the initial concentration of [H2 ]=[CO ] and x mol/L of hydrogen is consumed at equilibrium the correct expression of Kp is:
16
Nov
For the reaction, H2(g) + CO2(g)⇌CO(g)+H2O(g) If the initial concentration of [H2 ]=[CO ] and x mol/L of hydrogen is consumed at equilibrium the correct expression of Kp is: For the reaction H2(g) + CO2(g)⇌CO(g)+H2O(g) If the initial concentration of [H2 ]=[CO ] and x mol/L of hydrogen is consumed at equilibrium the correct expression [...]
For the reaction, AB2(g)⇌AB(g)+B(g) If α is negligible, then degree of dissociation (α) of AB2 is proportional to:
11
Nov
For the reaction, AB2(g)⇌AB(g)+B(g) If α is negligible, then degree of dissociation (α) of AB2 is proportional to: AB2(g)⇌AB(g)+B(g) If α is negligible For the reaction then degree of dissociation (α) of AB2 is proportional to: November 11, 2020 Category: Chapter 5 - Chemical Equilibrium (Level 1 and Level 2) , N Awasthi [...]