`gamma_(A)` of liquid is 7/8 of `gamma_(R)` of liquid. `alpha_(g)` of vessel is

A liquid of coefficient of real expansion gamma is partly filled in a vessel of coefficient of linear expansion gamma//3 . When the system is heated, then (a) the volume of space above liquid remains same (b) the level of liquid relative to vessel remains same ( c) the fraction of volume of liquid in vessel remains same

The relation between the coefficient of real expansion ( gamma_r ) and coefficient of apparent expansion ( gamma_a ) of a liquid and the coefficient of lincar expansion ( alpha_g ) of the material of the container is

A specific gravity bottle contains 101.6gm. of liquid at 30°C. gamma_(A) of liquid is 16 xx 10^(-5)//""^(@) C . When it is heated to 130^(@) C , mass of liquid expelled is

{:("Column-I","Column-II"),("A)" gamma_(g) "is" +ve & lt gamma_(r) , "P) when heated, liquid level does not change"),("B)" gamma_(g) "is" -ve,"Q) when heated, liquid level increases"),("C)" gamma_(g) = gamma_(r) ,"R) when heated, liquid level decreases"),("D)" gamma_(g) gt gamma_(r) ,"S) when heated, liquid level first decreases and then increases"):}