`H_2O+ ____ to H_3O^+`

H_2O_2 + H_2O to H_2O^(+) toHO_2^- This reaction indicates

H_2O + H_2O iff H_3O^(+) + OH^- , In this reaction water acts as I) Bronsted Acid II) Bronsted Base III) Amphoteric oxide 1)

I) CuSO_4 + 5H_2O to CuSO_4 . 5H_2O II) PCl_3 + 3H_2O to H_3PO_3+ 3HCl The processes I and II are respectively

For 2H_2O_2 to 2H_2O +O_2 . If (-d)/(dt) [H_2O_2] = K_1 [H_2O_2] (+d[H_2O])/(dt) = K_2[H_2O_2] (+d[O_2])/(dt) = K_3[H_2O_2]

Balance the following equations: H_2O_2 to H_2O_2 + O_2

H_2CO_3 ionises in two stages as represented below H_2CO_3 +H_2O hArr H_3O^(+) +HCO_3^(-) , HCO_3^(-) +H_2O hArr H_3O^(+) CO_3^(2-) the no. of conjugate acid -base pairs in the above reaction are

E^(0) = -08275V for the reaction, 2H_2O + 2e^(-) to 2OH^(-) + H_(2) .Calculate the ionic product for the reaction, 2H_2O

Consider the following reactins involving some atmospheric pollutants. NO + O_(3) to NO_(2) + O_(2) overset(hv) to NO + O_(3) 4NO _(2) + O _(2) + 2H_(2)O to 4HNO_(3) 3CH_(4) + 2O_(3) to 3H_(2) C=O+ 3H_(2)O Based on the above, the formation of formaldehyde from methane in the atmosphere will be controlled by,