One of the principal goals of chemical synthesis is to maximise the conversion of the reactants to products
while minimizing the expenditure of energy. This implies maximum yield of products at mild temperature and
pressure conditions. If it does not happen, then the experimental conditions need to be adjusted. For
example, in Haber's process for the synthesis of ammonia from N, and H,
N260 +3H2(8) 73K2NH,() AH°=- 46.1 kJ mol-
NAP
K = 1.06 10 (NH3)2
the choice ofexperimental conditions is of real economic importance. Annual world production ofammonia
is about hundred million tones, primarily for use as fertilizers.
K. Write an expression of K for the Haber's process.
2. What is the value of K for the reverse reaction of Haber's process ? Crnard
Indicate the direction in which equilibrium of above reaction will shift when temperature is increased ?
What would be the effect of increase in pressure in the formation of ammonia ?
5. In which direction above reaction will proceed if value of Q. = 2.04 x 103?
3.
boek word
Answers
Explanation:
6 x 103
the choice of experimental conditions is ofreal economic importance. Annual world production of ammonia
is about hundred million tones, primarily for use as fertilizers.
1. Write an expression ofK for the Haber's process.
2. What6 x 103
the choice of experimental conditions is ofreal economic importance. Annual world production of ammonia
is about hundred million tones, primarily for use as fertilizers.
1. Write an expression ofK for the Haber's process.
2. What6 x 103
the choice of experimental conditions is ofreal economic importance. Annual world production of ammonia
is about hundred million tones, primarily for use as fertilizers.
1. Write an expression ofK for the Haber's process.
2. What6 x 103
the choice of experimental conditions is ofreal economic importance. Annual world production of ammonia
is about hundred million tones, primarily for use as fertilizers.
1. Write an expression ofK for the Haber's process.
2. What