`ClO^(-)+CrO_(2)^(-)+OH^(-)toCl^(-)+CrO_(4)^(2-)+H_(2)O`. The number of moles of `ClO^(-)` reacting with 1 mol `CrO_(2)^(-)` is

Write two uses of ClO2

Aldehydes reduce Fehling's solution to red ppt of Cu_(2)O and Tollens reagent to silver i. CH_(3)-CHO+Ag^(+)+OH^(-)toCH_(3)COO^(-)+Ag+H_(2)O (ii) CH_(3)-CH_(2)-CHO+Cu^(2+)+OH^(-)toCH_(3)-CH_(2)-COO^(-)+Cu_(2)O+H_(2)O The number of mols of OH^(-) taking part in the balanced equation in reaction (i) and (ii) are respectively

Find the equivalent weight of H_(3) PO_(4) in each of the following reactions: H_(3) PO_(4) + OH^(-) to H_(2) PO_(4)^(-) + H_(2) O H_(3) PO_(4) + 2OH^(-) to HPO_(4)^(2-) + 2H_(2) O H_(3) PO_(4) + 3OH^(-) to PO_(4)^(3-) + 3H_(2) O

Consider the reaction Cl_(2)O_(7)+H_(2)O_(2)overset(OH^(-))(to)ClO_(2)^(-)+O_(2) . The coefficient of H_(2)O_(2),OH^(-) and H_(2)O in the balanced equation are

A mixture of ethane and ethene occupied 41 L at 1 atm and 500 K. The mixture reacts completely with 10/3 mol of O_(2) to produce CO_(2)andH_(2)O . The number of moles of ethane in the mixture is

The reaction of ozone with oxygen atoms in the presence of chlorine atoms can occur by a two step process shown below: i. O_(3)(g) + Cl^(*)(g) to O_(2)(g) + ClO^(*) , k_(1) = 5.2 xx 10^(9) "L mol"^(-1)s^(-1) (ii) ClO^(*) (g) + O^(*)(g) to O_(2)(g) + Cl^(*), k_(II) = 2.6 xx 10^(10) L "mol"^(-1)s^(-1) The closest rate constant for the overall reaction O_(3)(g)+O^(.)(g)rarr2O_(2)(g) is : 1.4 xx 10^(20) L mol^(-1) s^(-1) , 3.1 xx 10^(10) L mol^(-1) s^(-1) , 5.2 xx 10^(9) L mol^(-1) s^(-1) , 2.6 xx 10^(10) L mol^(-1) s^(-1)