In the equilibrium `N_(2)+3H_(2)hArr2NH_(3)`, the maximum yield of ammonia will be obtained with the process having

N_(2)+3H_(2)rarr2NH_(3) , name the type of reaction .

For the equilibrium N_(2(g))+3H_(2(g))hArr2NH_(3(g)) Write K_(P) and K_(C) relationship.

In the following system at equilibrium, N_(2)+3H_(2)hArr2NH_(3) , the reaction mixture contains 0.005 mol of N_(2) , 0.012 mol of H_(2) and 0.002 mol of NH_(3) in a 2 litre vessel. Calculate K_(c) .

For the equilibrium N_(2)O_(4(g))hArr 2NO_(2(g)) , the K_(p) and K_(c ) values are related as

For the equilibrium reaction H_(2(g))+I_(2(g))hArr 2HI_((g))

For the gaseous reaction : N_(2)+3H_(2)hArr 2NH_(3) the partial pressure of H_(2) and N_(2) are 0.4 and 0.8 atm respectively. The total pressure of the entire system is 2.8 atm. What will be the value of K_(p) if all concentrations are given in atmospheres ?

Consider the chemical reaction : N_(2)(g) +3H_(2)(g) rarr 2NH_(3)(g) The rate of this reaction can be expressed in terms of time derivative of concentration of N_(2)(g), H_(2)(g) "or" NH_(3)(g) . Identify the correct relationship amongst the rate expressions :