The rate of reaction. 2N(2)O(5) to 4NO...

The rate of reaction.
`2N_(2)O_(5) to 4NO_(2) + O_(2)`
can be written in three ways.
`(-d[N_(2)O_(5)])/(dt) = k[N_(2)O_(5)]`
`(d[N_(2)O_(5)])/(dt) =( k^(')[N_(2)O_(5)])`
`(d[O_(2)])/(dt) = (k^(')[N_(2)O_(5)])`
The relation between k and `k^(')` are:

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The rate of the reaction 2N_(2)O_(5) to 4NO_(2) + O_(2) can be written in three ways: (-d[N_(2)O_(5)])/(dt)=k[N_(2)O_(5)] (d[NO_(2)])/(dt)=k'[N_(2)O_(5)] (d[O_(2)])/(dt)=k''[N_(2)O_(5)] The relationship between k and k′ and between k and k′′ are-

The rate of the reaction: 2N_(2)O_(5)rarr4NO_(2)+O_(2) can be written in three ways -(d[N_(2)O_(5)])/(dt)=k[N_(2)O_(5)] , (d[NO_(2)])/(dt)=k'[N_(2)O_(5)] ,(d[O_(2)])/(dt)=k''[N_(2)O_(5)] The relationship between k and k' and between k and k'' are-

2N_(2)O_(5) rarr 4NO_(2) + O_(2) If (-d[N_(2)O_(5)])/(dt) = k_(1)[N_(2)O_(5)] (d[NO_(2)])/(dt) = k_(2)[N_(2)O_(5)] (d[O_(2)])/(dt) = k_(3)[N_(2)O_(5)] What is the relation between k_(1), k_(2) , and k_(3) ?

2N_(2)O_(5)rarr NO_(2)+O_(2), (d[N_(2)O_(5)])/(dt)=k_(1)[N_(2)O_(5)], (d[NO_(2)])/(dt)=k_(2)[N_(2)O_(5)] and (dO_(2))/(dt)=k_(3)[N_(2)O_(5)] , the relation between k_(1), k_(2) and k_(3) is

The rate of reaction. `2N_(2)O_(5) to 4NO_(2) + O_(2)` can be written in three ways. `(-d[N_(2)O_(5)])/(dt) = k[N_(2)O_(5)]` `(d[N_(2)O_(5)])/(dt) =( k^(')[N_(2)O_(5)])` `(d[O_(2)])/(dt) = (k^(')[N_(2)O_(5)])` The relation between k and `k^(')` are:

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The rate of reaction.
`2N_(2)O_(5) to 4NO_(2) + O_(2)`
can be written in three ways.
`(-d[N_(2)O_(5)])/(dt) = k[N_(2)O_(5)]`
`(d[N_(2)O_(5)])/(dt) =( k^(')[N_(2)O_(5)])`
`(d[O_(2)])/(dt) = (k^(')[N_(2)O_(5)])`
The relation between k and `k^(')` are: