(A): Direct absorption of `SO_(3)` in `H_(2)O` is commercially not possible
(R): Direct absorption of `SO_(3)` in water forms a mist of corrosive vapours. 

Write the possible resonance structures for SO_(3) .

H_(2)SO_(4) has very corrosive action on skin because

Oleum is mixture of H_(2)SO_(4) and SO_(3) i.e. H_(2)S_(2)O_(7) which is obtained by passing SO_(3) is solution of H_(2)SO_(4) . In order to dissolve SO_(3) in oleum, dilution of oleum is done by water in which oleum is converted into pure H_(2)SO as shown below: H_(2)SO_(4)+SO_(3)+H_(2)Oto2H_(2)SO_(4) (pure) When 100 gm oleum is diluted with water then total mass of diluted oleum is known as percentage labelling in oleum. For example: 109% H_(2)SO_(4) labelling of oleum sample means that 109 gm pure H_(2)SO_(4) is obtained on diluting 100 gm oleum with 9 gm H_(2)O which dissolves al free SO_(3) in oleum. If the number of moles of free SO_(3), H_(2)SO_(4) , and H_(2)O be x, y and z respectively in 118% H_(2)SO_(4) labelled oleum, the value of (x+y+z) is

Oleum is mixture of H_(2)SO_(4) and SO_(3) i.e. H_(2)S_(2)O_(7) which is obtained by passing SO_(3) is solution of H_(2)SO_(4) . In order to dissolve SO_(3) in oleum, dilution of oleum is done by water in which oleum is converted into pure H_(2)SO as shown below: H_(2)SO_(4)+SO_(3)+H_(2)Oto2H_(2)SO_(4) (pure) When 100 gm oleum is diluted with water then total mass of diluted oleum is known as percentage labelling in oleum. For example: 109% H_(2)SO_(4) labelling of oleum sample means that 109 gm pure H_(2)SO_(4) is obtained on diluting 100 gm oleum with 9 gm H_(2)O which dissolves al free SO_(3) in oleum. If 109% H_(2)SO_(4) labelled oleum, the percent of free SO_(3) and H_(2)SO_(4) are

Write any two uses each for O_(3) and H_(2)SO_(4) .

A mixture of SO_(2),SO_(3) and O_(2) gases are maintained at equilibrium in 10 litre flask at a temperature at which K_(c) for the reaction 2SO_(2)(g)+O_(2)(g)hArr2SO_(3)(g) is 100. At equilibrium. a. If no of moles of SO_(3) and SO_(2) is flask are same, how many moles of O_(2) are present. b. If no. of moles of SO_(3) in flask is twice the no. of moles SO_(2) how many moles of O_(2) are present.

Oxidation state of S in H_(2)SO_(5) and H_(2)S_(2)O_(8) respectively are

Explain the conditions favourable for the formation of SO_(3) from SO_(2) in the contact process of H_(2)SO_(4) .