`2N_(2)H_(4)(g)+N_(2)O_(4)(g)rarr3N_(2)(g)+4H_(2)O(g)`
If `N_(2)H_(4)(g)` disappears at a rate of `0.12` mol L min, at what rate does `N_(2)(g)` appear?

According to the equation N_(2)O_(3)(g) + 6H_(2)(g) rArr 2NH_(3)(g) + 3H_(2)O(g) how many moles of NH_(3)(g) could be formed from the reaction of 0.22 mol of N_(2)O_(3) (g) with 0.87 mol of H_(2)(g) ?

The commercial poduction of ammonia is represented by the equation, N_(2)(g)+3H_(2)(g)rarr2NH_(3)(g) . If the rate of disappearance of H_(2)(g) is 1.2xx10^(-3) mol/min, what is the rate of appearance of NH_(3)(g) ?

This reaction is first order with reapect of N_(2)O_(5) . 2N_(2)O_(5)(g)rarr4NO_(2)(g)+O_(2)(g) If the half-life for this reaction is 19.0 minutes, what is the rate constant, k for r = k[N_(2)O_(5)] ?

N_(2) (g) reacts with H_(2) (g) in either of the following ways depending upon supply of H_(2) (g) : N_(2)(g)+H_(2)(g) to N_(2)H_(2)(l) N_(2)(g)+2H_(2)(g) to N_(2)H_(4) (g) If 5 L N_(2) (g) and 3 L H_(2) (g) are taken initially (at same temperature and pressure ), calculate the contraction in valume after the reaction (in L ).

For the reaction, N_(2)H_(4)(l)+2H_(2)O_(2)(l) rarr N_(2)(g)+4H_(2)O(g) heats of formation of N_(2)H_(4), H_(2)O_(2), H_(2)O are 12, -45 and -57.8 "kcal mol"^(-1) . Internal energy change for this reaction is/are at 298 K:

2N_(2)O_(5)(g) rarr 4NO_(2)(g)+O_(2)(g) The rate of disappearance of N_(2)O_(5)(g) at a certain temperature is 0.016"mol.L"^(-1)"min"^(-1) . What is the rate of formation of NO_(2)(g) (in mol. L^(-1)."min"^(-1) ) at this temperature ?

The oxidation of ammonia produces nitrogen and water according to the equation : 4NH_(3)(g)+3O_(2)(g)rarr2N_(2)(g)+6H_(2)O(g) If the rate of formation of N_(2) at a certain temperature is 3.0"mol.L^(-1).s^(-1) , what is the rate of disappearance of O_(2) ?

Determine enthalpy of formation for H_(2)O_(2)(l) , using the listed enthalpies of reactions: N_(2)H_(4)(l) + 2H_(2)O_(2)(l) rarr N_(2)(g) + 4H_(2)O(l), Delta_(r)H_(1)^(@) =-818 KJ//"mol" N_(2)H_(4)(l)+O_(2)(g) rarr N_(2)(g) + 2H_(2)O(l), Delta_(r)H_(2)^(@)=-622 KJ//"mol" H_(2)(g)+(1)/(2)O_(2)(g) rarr H_(2)O(l), Delta_(r)H_(3)^(@)=-285 KJ//"mol"