A glass flask of volume one litre at `0^(@)C` is filled, level full of mercury at this temperature. The flask and mercury are now heated to `100^(@)C`. How much mercury will spill out if coefficient of volume expansion of mercury is `1.82 xx 10^(-4)//^(@)C` and linear expansion of glass is `0.1 xx 10^(-4)//^(@)C` respectively?

A glass flask of volume one litre at 0^(@)C is filled level full of mercury at this temperature. The flask and mercury are now heating to 100^(@)C . How much mercury will spill out if coefficient of volume expansion of mercury is 1.2xx10^(-4)//^(@)C and linear expansion of glass is 1.0xx10^(-4)//^(@)C respectively ?

A glass flask whose volume is exactly 1000 cm^3 at 0^@C is filled level full of mercury at this temperature. When the flask and mercury are heated to 100^@C , 15.2cm^3 of mercury overflows. The coefficient of cubical expansion of Hg is 1.82xx10^(-4)//^@ C . Compute the coefficient of linear expansion of glass.

A glass flask of volume 1 litre is fully filled with mercury at 0^(@)C . Both the flask and mercury are now heated to 100^(@)C . If the coefficient of volume expansion of mercury is 1.82xx10^(-4)//""^(@)C , volume coefficient of linear expansion of glass is 10xx10^(-6)//""^(@)C , the amount of mercury which overflows is

A glass flask whose volume is exactly 1000 at 0^@C is completely filled with mercury at this temperature . When the flask and mercury are heated to 100 ^@C , it is found that 15.4 cm^3 of mercury overflows. If the coefficient of volume expansion of mercury is 1.8xx10^(-4)//K , calculate the coefficient of volume expansion of glass.

A galss flask is filled up to a mark with 50 cc of mercury at 18^@C . If the flask and contents are heated to 38^@C , how mech mercury will be above the mark ( alpha for glass is 9xx10^(-6)//^@C and coeffiecient of real expansion of mercury is 180xx10^(-6)//^@C )?

A glass vessel of volume 100 cm^(3) is filled with mercury and is heated from 25^(@)C to 75^(@)C . What volume of mercury will overflow? Coefficient of linear expansion of glass = 1.8 xx 10^(-6)//'^(@)C and coefficeient of volume expansion of mercury is 1.8 xx 10^(-4)//'^(@)C .

Coefficient of volume expansion of mercury is 0.18xx10^(-3)//.^(@)C . If the density of mercury at 0^(@)C is 13.6g/cc, then its density at 200^(@)C is

A glass flask of volume 200cm^(3) is completely filled with mercury at 20^(0)C . The amount of mercury that overflow when the flask is heated to 80^(0)C (Coefficient of volume expansion of glass is 27 xx 10^(-6 //0)C, gamma of mercury 0.18 xx 10^(-3) //^(0)C

A flask of mercury is sealed off at 20^@C and is completely filled with mercury. If the bulk modulus for mercury is 250 Mpa and the coefficient of volume expansion of mercury is 1.82xx10^(-4)//^(@)C and the expansion of glass is ignored, the pressure of mercury within flask at 100^@C will be

A weight thermometer contains 500g of mercury at 0^(@)C . If the temperatue is raised to 100^(@)C how much mercury will be expelled. (Cubical expansivity of mercur =182xx10^(-6).^(@)C^(-1) and that of glass =27xx10^(-6).^(@)C^(-1) )