For the reaction: `2HIrarr H_(2)+I_(2)`, the expresison `-d(HI)//2dt` represents

For the reaction NO_(2)+COrarrCO_(2)+NO , the experimental rate expresison is -dc//dt = k[NO_(2)]^(2) . Find the number of molecules of CO involved in the slowest step.

For the reaction, 2HI(g) rarr H_(2)(g) + I_(2) (g) - Q KJ , the equilibrium constant depends upon

For the reaction : H_(2)+I_(2)to 2HI, the differential rate law is

For the reaction H_(2)(g)+I_(2)(g) hArr 2HI(g) , the rate of reaction is expressed as

In a reaction 2HI to H_(2) + I_(2) the concentration of HI decreases from 0.5 mol L^(-1) to 0.4 mol L^(-1) in 10 minutes. What is the rate of reaction during this interval?

The equilibrium constant K for the reaction 2HI(g) hArr H_(2)(g)+I_(2)(g) at room temperature is 2.85 and that at 698 K is 1.4 xx10^(-2) . This implies

The equilibrium constant K for the reaction 2HI(g) hArr H_(2)(g)+I_(2)(g) at room temperature is 2.85 and that at 698 K is 1.4 xx10^(-2) . This implies

If the equilibrium constant of the reaction 2HIhArr H_(2)+I_(2) is 0.25, then the equilibrium constant for the reaction, H_(2)(g)+I_(2)(g)hArr 2HI(g) would be

For the reaction 2HI(g)hArr H_(2)(g)+I_(2)(g) . The value of K_(c) is 4. If 2 moles of H_(2)," 2 moles of "I_(2) and 2 moles of HI are present in one litre container then moles of I_(2) present at equilibrium is :

For a reaction 2NH_(3)rarrN_(2)+3H_(2) , it is observed that (-d(NH_(3)))/(dt)=k_(1)(NH_(3)),(d(N_(2)))/(dt)=k_(2)(NH_(3)),(d(H_(2)))/(dt)=k_(3)(NH_(3)) What is the reletion between k_(1),k_(2) and k_(3) ?