For the reaction , `N_(2)(g)+3H_(2)(g)rarr2NH_(3)(g),(1)/(2)(d[NH_(3)])/(dt) = 2xx10^(-4)"mol.L"^(-1).s^(-1)` Find rate of disappearance of `N_(2) & H_(2)`

For the reaction, 2NH_(3)(g) to N_(2)(g)+3H_(2)(g) -

In the reaction : N_(2)+3H_(2)rarr2HN_(3) the rate of formation of NH_(3) " is " 9.6xx10^(-3)"mol.L"^(-1).s^(-1). Calculate the rates of disappearance of N_(2) and H_(2) .

For the reaction 2N_(2)O_(5)(g)rarr4NO_(2)(g)+O_(2)(g) the rate of formation of NO_(2)(g)" is "2.8xx10^(3)(M).s^(-1) . Calculate the rate of disappearance of N_(2)O_(5)(g) .

In the reaction , A(g)rarr2B(g)+(1)/(2) C(g) , rate of formation of C is 10^(-3)"mol.L"^(-1).s^(-1) . Therefore , rate of disappearance ("in mol.L"^(-1).s^(-1)) of A and rate of formation ("in mol.L"^(-1).s^(-1)) of B , respectively , are -

For the reaction , 4NH_(3)(g)+5O_(2)(g)rarr4NO(g)+6H_(2)O(g) the concentration of NO increases to 0.18"mol.L"^(-1) in 5s. Calculate rate of disappearance of NH_(3)

In the reaction, A+3Brarr2C,(d[C])/(dt)=2xx10^(-4)"mol.L"^(-1).s^(-1) So , (-d[B])/(dt)("in mol.L"^(-1).s^(-1)) is -

The initial concentration of N_(2)O_(5) in the following first order reaction N_(2)O_(5)rarr2NO_(2)(g)+(1)/(2)O_(2)(g) " was "1.24xx10^(-2)"mol.L"^(-1) at 318K. The concentration of N_(2)O_(5) after 60minutes was 0.20xx10^(-2)"mol.L"^(-1) . Calculate the rate constant of the reaction at 318K.

2H_(2)(g)+O_(2)(g)rarr2H_(2)O(g) , In this reaction, if the rate of formation of 2H_(2)O(g) " is xmol.L"^(-1).s^(-1) , what will be the of disappearance of H_(2)(g) and O_(2)(g) ?

N_(2)(g)+3H_(2)(g)rarr2NH_(3)(g) , For this reaction ......... xx rate of disappearance of H_(2) = …………….. xx rate of production of NH_(3)

At constant temperature & high pressure, the given reaction is of the zero order : 2NH_(3)(g)overset(pt)rarrN_(2)(g)+3H_(2)(g) . If the rate constant of this reaction is 3xx10^(-4)"mol.L"^(-1).s^(-1) , calculate the rate of formation of N_(2)and H_(2) .