50 ml Toluene `[C_(6)H_(5)CH_(3)(g)]` undergoes combustion with excess of oxygen. Calculate the volume contraction.

When 0.532g of benzene (C_(6)H_(6)) , boiling point 353 K, is burnt with excess of oxygen in a constant volume system 22.3 kJ of heat is given out. Calculate DeltaH for the combustion process (R=8.31 JK^(-1) mol^(-1)) .

280 g of a mixture containing CH_(4) and C_(2)H_(6) in 5:2 molar ratio is burnt in presence of excess of oxygen. Calculate total moles of CO_(2) produced.

100ml of a mixture of CH_(4) and C_(2)H_(4) were exploded with excess of oxygen. After explosion and cooling, the mixture was treated with KOH , where a reduction of 165 ml was observed. Find the composition of the mixture taken ?

1 ml of gaseous aliphatic compound C_(n) H_(3n) O_(m) is completely burnt in an excess of O_(2) . The contraction in volume is

The C-H bond of the side chain in toluene, C_(6)H_(5)-CH_(3) , has a dissociation energy of 77.5 kcal mol^(-1) . Calculate Delta_(f)H^(Theta) of benzy 1 radical and the strength of the central bond in dibenzy 1 C_(6)H_(5)-CH_(2)-CH_(2)-C_(6)H_(5) given that Delta_(f)H^(Theta) to toluene vapour in 12 kcal mol^(-1) and that of dibenzy 1 vapour is 27.8 kcal mol^(-1). BE of H_(2) = 104 kcal mol^(-1) .

CH_(3)-CHO & C_(6)H_(5)-CO-CH_(3) can reacts similarly with

An alkene upon combustion produces CO_(2)(g)"and"H_(2)O(g). In this combustion process if there is no volume change, then, the no. of C atoms per molecule of alkene will be:

20mL of a mixture of CO and H_(2) were mixed excess of O_(2) and exploded & cooled. There was a volume contraction of 23mL . All volume measurements corresponds to room temperature (27^(@)C) and one atmospheric pressure. Determine the volume ratio (V_(1):V_(2)) of CO and H_(2) in the original mixture .

10 ml of a mixture of carbon monoxide, marsh gas and hydrogen exploded with excess of oxygen gave a contraction of 6.5 CC. There was further contraction of 7 CC when the residual gas was treated with caustic potash. The volume of marsh gas present in original mixture is

10 mL of a mixture of CH_(4) and C_(3)H_(8) requires 41 mL of oxygen for complete combustion. What is the volume of CH_(4) and C_(3)H_(8) in. the mixture.