Electrophile `overset(o+)(N)O_(2)` attacks the following :

In which cases `overset(o+)(N)O_(2)` will attack at meta position

Electrophile overset(o+)NO_(2) attacks the following : In which cases overset(o+)NO_(2) will attack at meta position

Electrophile NO_(2)^(o+) attacks the following in which cases NO_(2)^(o+) will be at meta position:

In which cases NO_(2)^(o+) will attack meta position

Electrophile NO_(2)^(+) attacks on the following: In which cases will NO_(2)^(+) be at meta-position?

The thermal decomposition of N_(2)O_(5) occurs in the following steps: Step I: N_(2)O_(5) overset("slow")(rarr) NO_(2)+NO_(3) Step II: N_(2)O_(5)+NO_(3)overset("fast")(rarr)3NO_(2)+O_(2) Overall reaction, 2N_(2)O_(5)rarr 4NO_(2)+O_(2) Suggest the rate expression.

N_(2)O_(3) overset(R.T.) to NO+NO_(2)

The chemical reaction 2O_(3) overset(k_(1))rarr 3O_(2) proceeds as follows: O_(3) overset(k_(eq))hArr O_(2)+O (fast) O + O_(3) overset(k)rarr 2O_(2) (slow) What should be the rate law expresison ?