`N_(2)+3H_(2) to NH_(3)`

N_(2) + 3H_(2) to 2NH_(3) In this reaction, equivalent weight of N_(2) is :

In the reaction N_(2)+3H_(2) to 2NH_(3) , the volume ratio of the gases as 1: 3: 2 was

For the reaction N_(2) + 3H_(2) to 2NH_(3) if (Delta[NH_(3)])/(Deltat) = 2 xx 10^(-4) mol L^(-1)s^(-1) , the value of (-Delta[H_(2)])/(Deltat) would be

For the following reaction N_(2)+3H_(2)to2NH_(3) equivalent mass of N_(2)=("molar mass of" N_(2))/X What is the value of x.

For the reaction N_(2) + 3 H_(2) to 2 NH_(3) The rate of change of concentration for hydrogen is -0.3 xx 10^(-4) Ms^(-1) The rate of change of concentration of ammonia is :

For the reaction N_(2) + 3 H_(2) to 2 NH_(3) The rate of change of concentration for hydrogen is 0.3 xx 10^(-4) Ms^(-1) The rate of change of concentration of ammonia is :

Assertion (A) : In the reaction, N_(2)+3H_(2) rarr 2NH_(3) , the rate of reaction is different in terms of N_(2), H_(2) and NH_(3) . Reason (R ): The rate of reaction is equal to the rate of disappearance of a reactant or rate of formation of a Product.

In the following reaction, we start with 2 mol of N_(2) and 5 mol of H_(2) exerting a total pressure of 7 atm at a given temperature is a closed vessel. When 50% of N_(2) is converted into NH_(3) . N_(2)+3H_(2)to2NH_(3) Partial pressure of NH_(3) is:

2 "mole" N_(2) and 3 "mole" H_(2) gas are allowed to react in a 20 L flask at 400 K and after complete conversion of H_(2) into NH_(3) . 10 L H_(2)O was added and temperature reduced to 300 K . Pressure of the gas after reaction is : N_(2)+3H_(2)to2NH_(3)

2 "mole" N_(2) and 3 "mole" H_(2) gas are allowed to react in a 20 L flask at 400 K and after complete conversion of H_(2) into NH_(3) . 10 L H_(2)O was added and temperature reduced to 300 K . Pressure of the gas after reaction is : N_(2)+3H_(2)to2NH_(3)