The boiling point of liquid nitrogen is `- 195.81^(@)C` at atmospheric pressure. Express this temperature in (a) `""^(@)F` and (b) K.

The boiling point of liquid hydrogen is 20.2K . Express this is degree Rankine.

Liquid oxygen freezes at - 218.4 ^(@)C and boils at - 183^(@)C . Express these temperatures in Fahrenheit scale.

The melting point of gold is 1064^(@)C . Express this in ""^(@)F and K.

The vapour pressure of fluorobenzene at t^(@)C is given by the equation log p(mm Hg)=7.0-(1250)/(t+220) Calculate the boiling point of the liquid in .^(@)C if the external (applied) pressure is 5.26% more than required for normal boiling point. (log 2=0.3 )

Why does the boiling point of liquid rise on increasing pressure ?

A solution of urea boils at 100.18^(@)C at the atmospheric pressure. If K_(f) and K_(b) for water are 1.86 and 0.512K kg mol^(-1) respectively, the above solution will freeze at,

Boiling point of a mixture of water and nitrobenzene is 99^(@)C , the vapour pressure of water is 733 mm of Hg and the atmospheric pressure is 760 n n if Hg . The molecular weight of nitrobenzene is 123 . Find the ratio weights of the components of the distillate.

The boiling points at atmospheric pressure of HF, H_(2)S, NH_(3) can be arranged in the following order :

The boiling points at atmospheric pressure of HF, H_(2)S, NH_(3) can be arranged in the following order :