Home
Class 10
CHEMISTRY
The chemcial equation of one of the diff...

The chemcial equation of one of the different stages of manufacturing sulphuric acid by contact process is given below. Find out the influence of the following factors in the reac-tion given below.`2SO_2(g)+O_2(g)harr2SO_3(g)+heat`: Catalyst vanadium pentoxide `(V_2O_5)` is added.

Promotional Banner

Topper's Solved these Questions

  • COMPOUNDS OF NON-METALS

    BODY BOOKS PUBLICATION|Exercise EXERCIES|7 Videos

  • CHEMICAL REACTIONS OF ORGANIC COMPOUNDS

    BODY BOOKS PUBLICATION|Exercise EXERCISE|20 Videos

  • GAS LAWS AND MOLE CONCEPT

    BODY BOOKS PUBLICATION|Exercise EXERCISE|6 Videos

Similar Questions

Explore conceptually related problems

The chemcial equation of one of the different stages of manufacturing sulphuric acid by contact process is given below. Find out the influence of the following factors in the reac-tion given below. 2SO_2(g)+O_2(g)harr2SO_3(g)+heat : SO_3 is removed.

The chemcial equation of one of the different stages of manufacturing sulphuric acid by contact process is given below. Find out the influence of the following factors in the reac-tion given below. 2SO_2(g)+O_2(g)harr2SO_3(g)+heat : Pressure in increased

The chemcial equation of one of the different stages of manufacturing sulphuric acid by contact process is given below. Find out the influence of the following factors in the reac-tion given below. 2SO_2(g)+O_2(g)harr2SO_3(g)+heat : Increase the amount of oxygen.

The chemical equation of one of the different stages of manufacturing sulphuric acid by contact process is given below. Find out the influence of the following factors in the reaction given below. 2SO_(2)(g)+O_(2)(g)Leftrightarrow2SO_(2)(g)+Heat i) Increase the amount of oxygen ii) Pressure is increased iii) Catalysed vanadium pentoxide (V_(2)O_(3)) is added iv) SO_(3) is removed

The chemical equation of a stage in the industrial preparation of sulphuric acid is given below. 2SO_2+O_2harr2SO_3+Heat : What is the influence of the catalyst in equilibrium?

Justify the following reaction is redox reaction 4NH_3(g) + 5O_2 (g) to 4NO (g) + 6H_2O (g)

Examine the chemical equation given below and write the forward and backward reaction : 2SO_2 (g)+O_2(g)harr2SO_3(g)

Write an expression for equilibrium constant of the reaction, 2SO_2(g) + O_2(g) gives 2SO_3(g).

What is the effect of pressur on thr following equilibria? Ice harr Water N_2 (g)+ O_2(g) harr 2NO(g)

Pressure has no influence in the following equilibrium: N_2(g)+O_2(g)harr2NO_(g) . What is the reason for this?