For the reaction `2NO(g) + H_(2)(g) rarr N_(2)O(g) + H_(2)O(g)`, at `900 K` following data are observed.
`{:("Initial pressure of NO (atm)","Initial pressure of" H_(2)o (atm),"Initial rate of pressure decrease" (atm min^(-1))),(0.150,0.40,0.020),(0.075,0.40,0.005),(0.150,0.20,0.010):}`
Find the order of reaction.

Conisder the reaction represented by the equation: CH_(3)Cl(g) + H_(2)O(g) rarr CH_(3)OH(g) + HCl(g) These kinetics data were obtained for the given reaction concentrations: {:("Initial conc (M)",,"Initial rate of disappearance"),([CH_(3)Cl],[H_(2)O],"of "CH_(3)Cl(Ms^(-1))),(0.2,0.2,1),(0.4,0.2,2),(0.4,0.4,8):} Overall order of the reaction will be

Conisder the reaction represented by the equation: CH_(3)Cl(g) + H_(2)O(g) rarr CH_(3)OH(g) + HCl(g) These kinetics data were obtained for the given reaction concentrations: {:("Initial conc (M)",,"Initial rate of disappearance"),([CH_(3)Cl],[H_(2)O],"of "CH_(3)Cl(Ms^(-1))),(0.2,0.2,1),(0.4,0.2,2),(0.4,0.4,8):} Overall order of the reaction will be

Conisder the reaction represented by the equation: CH_(3)Cl(g) + H_(2)O(g) rarr CH_(3)OH(g) + HCl(g) These kinetics data were obtained for the given reaction concentrations: {:("Initial conc (M)",,"Initial rate of disappearance"),([CH_(3)Cl],[H_(2)O],"of "CH_(3)Cl(Ms^(-1))),(0.2,0.2,1),(0.4,0.2,2),(0.4,0.4,8):} The rate law for the reaction will be

Conisder the reaction represented by the equation: CH_(3)Cl(g) + H_(2)O(g) rarr CH_(3)OH(g) + HCl(g) These kinetics data were obtained for the given reaction concentrations: {:("Initial conc (M)",,"Initial rate of disappearance"),([CH_(3)Cl],[H_(2)O],"of "CH_(3)Cl(Ms^(-1))),(0.2,0.2,1),(0.4,0.2,2),(0.4,0.4,8):} The rate law for the reaction will be

Conisder the reaction represented by the equation: CH_(3)Cl(g) + H_(2)O(g) rarr CH_(3)OH(g) + HCl(g) These kinetics data were obtained for the given reaction concentrations: {:("Initial conc (M)",,"Initial rate of disappearance"),([CH_(3)Cl],[H_(2)O],"of "CH_(3)Cl(Ms^(-1))),(0.2,0.2,1),(0.4,0.2,2),(0.4,0.4,8):} Order with respect to [CH_(3)Cl] will be

Conisder the reaction represented by the equation: CH_(3)Cl(g) + H_(2)O(g) rarr CH_(3)OH(g) + HCl(g) These kinetics data were obtained for the given reaction concentrations: {:("Initial conc (M)",,"Initial rate of disappearance"),([CH_(3)Cl],[H_(2)O],"of "CH_(3)Cl(Ms^(-1))),(0.2,0.2,1),(0.4,0.2,2),(0.4,0.4,8):} Order with respect to [CH_(3)Cl] will be

Conisder the reaction represented by the equation: CH_(3)Cl(g) + H_(2)O(g) rarr CH_(3)OH(g) + HCl(g) These kinetics data were obtained for the given reaction concentrations: {:("Initial conc (M)",,"Initial rate of disappearance"),([CH_(3)Cl],[H_(2)O],"of "CH_(3)Cl(Ms^(-1))),(0.2,0.2,1),(0.4,0.2,2),(0.4,0.4,8):} Unit of rate constant will be

Conisder the reaction represented by the equation: CH_(3)Cl(g) + H_(2)O(g) rarr CH_(3)OH(g) + HCl(g) These kinetics data were obtained for the given reaction concentrations: {:("Initial conc (M)",,"Initial rate of disappearance"),([CH_(3)Cl],[H_(2)O],"of "CH_(3)Cl(Ms^(-1))),(0.2,0.2,1),(0.4,0.2,2),(0.4,0.4,8):} Unit of rate constant will be

For the reaction , O_2(g)+2F_2(g)to2OF_2(g),K_p=4.1 If P_(O_2)(g)=0.116 atm and P_(F_2)(g)=0.0461 atm at equilibrium , what is the pressure of OF_2(g) ?