In the process 2N(2)O(5)(g) to 4NO(2)(g)...

In the process `2N_(2)O_(5)(g) to 4NO_(2)(g) + O_(2)(g)` at t = 10, rate of reaction w.r.t. `N_(2)O_(5), NO_(2)` & `O_(2)` respectively are:

`N_(2)O_(5)` - 500 mm/min, `NO_(2)` - 400 min/min, `O_(2)`- 200 mm/min

`N_(2)O_(5)` - 1000 mm/min, `NO_(2)` - 1000 mm/min, `O_(2)`- 500 mm/min

`N_(2)O_(5)` - 1000 mm/min, `NO_(2)` - 2000 mm/min, `O_(2)`- 4000 mm/min

`N_(2)O_(5)` - 400 mm/min, `NO_(2)` - 400 mm/min, `O_(2)`- 400 mm/min

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For the decomposition of N_(2)O_(5) it is given that: 2N_(2)O_(5)(g) to 4NO_(2)(g) + O_(2)(g) , activation energy E_(a) N_(2)O_(5) (g) to 2NO_(2)(g) + 1/2 O_(2)(g) activation energy E_(a)^(') then,

For the first-order decomposition reaction of N_(2)O_(5) written as: 2N_(2)O_(5)(g) to 4NO_(2)(g) + O_(2)(g) , rate =k[N_(2)O_(5)] N_(2)O_(5)(g) to 2NO_(2)(g) + 1/2O_(2)(g) , rate =k'[N_(2)O_(5)] which of the following facts is true?

The reaction 2NO(g) + H_(2)(g) to N_(2)O(g) + H_(2)O(g) follows the rate law (dp(N_(2)O))/(dt)= k(p_(NO))^(2)p_(H_(2)) . If the reaction is initiated with p_(NO)= 1000 mm Hg and p_(H_(2)) =10mm Hg. The reaction may be considered to follow:

For the reaction 2NO_(2)(g) iff 2NO(g)+O_(2)(g), K_(c)=4 times 10^(-6) at 500 K. Hence, the K_(c) of the reaction NO(g)+1/2O_(2)(g) iff NO_(2)(g) at 500 K is

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