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

A horizontal tube, open at both ends, contains a column of liquid. The length of this liquid column does not change with temperature. Let gamma= coefficient of volume expansion of the liquid and alpha= coefficient of linear expansion of the material of the tube. Then gamma = K alpha , where K= _________

Passage - II : Liquids do not have definite shape and size, they are taken in a vessel. Their expansion (or) contraction takes place with respect to the container in which they arc considered. The volume coefficient of expansion relative to the vessel is termed as coefficient of apparent expansion ( gamma_(a) ) and the volume coefficient of expansion of the liquid is termed as absolute ( gamma_(R) "or" gamma_(L ) ) . In some of the arrangements mentioned as per the instructions. solve the problems. A metallic scale reads correct values at 0°C. It registers the height of liquid in the vessel (cylindrical shape) at 0°C as h_0 . If gamma_( C), gamma_( L) are the coefficients of cubical expansion of metallic scale and liquid respectively and alpha_(S) is the coefficient of linear expansion of the material of the cylindrical vessel made of material different to that of the scale, then the scale reading. Registering the height of the liquid in the vessel as function of temperature ( theta ) of the surroundings is

Passage - II : Liquids do not have definite shape and size, they are taken in a vessel. Their expansion (or) contraction takes place with respect to the container in which they arc considered. The volume coefficient of expansion relative to the vessel is termed as coefficient of apparent expansion ( gamma_(a) ) and the volume coefficient of expansion of the liquid is termed as absolute ( gamma_(R) "or" gamma_(L ) ) . In some of the arrangements mentioned as per the instructions. solve the problems. A thread of liquid in a uniform capillary tube of length L, as measured by a ruler. The temperature of the tube and the thread of the liquid is raised by 'Delta theta' . If gamma is the coefficient of volume expansion of the liquid and alpha is the coefficient of linear expansion of the material of the tube, then the increase in length 'Delta L' of the thread as measured by the ruler will be

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

Passage-II: Coefficient apparent expansion of a liquid is gamma_(H) = ( "mass excelled")/( " (remaining mass) ( change in temperature)") If 52 gm of a liquid is heated in a vessel from 0^(@) C to 100^(@) C . 2 gm of the liquid is expelled. If 104 gm of the same liquid taken in the same vessel and heated from 0^(@) C to 50^(@)C . Then the mass of the liquid expelled is

In an experiment it is observed that for a liquid gamma_("Abs") = gamma_("App") . Then the vessel .... On heating .