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 coefficient of volume expansion of mercury is `1.8 xx 10^(-4)//'^(@)C`.

A glass vessel of volume 100 cm^_3 is filled with mercury and is heated from 25^oc to 75^oc .What volume of mercury will overflow? Coefficient of linear expansion of glass= 1.8 xx10^(-6) c^(-1) and coefficient of volume expansion of mercury is 1.8 xx 10^(-4) C^(-1) .

The coefficient of linear expansion of gold is 14 xx 10^(-6)//""^(@)C . Find the coefficient of linear expansion on Fahrenheit scale.

A 1-L flask contains some mercury. It is found that at different temperature, the volume of air inside the flask remains the same. What is the volume of mercury in the flask, given that the coefficient of linear expansion of glass =9xx10^(-6)//^(@)C and the coefficient of volume expansion of Hg=1.8xx10^(-4)//^(@)C ?

A 1-L flask contains some mercury. It is found that at different temperature, the volume of air inside the flask remains the same. What is the volume of mercury in the flask, given that the coefficient of linear expansion of glass =9xx10^(-6)//^(@)C and the coefficient of volume expansion of Hg=1.8xx10^(-4)//^(@)C ?

A glass vessel of volume V_(o) is comopleated filled with volume of the liquid will overflow? Cofficient of linear expansion of gass = alpha and coefficient of volume expension of the liquid = gamma_(l)

(a) The brass scale of a barometer gives correct reading at 0^(@)C . Coefficient of linear expansion of brass is 2.0xx10^(-5)//^(@)C . The barometer reads 75cm at 27^(@)C . What is the atmospheric pressure at 27^(@)C ? (b) A barometer reads 75.0cm on a steel scale. The room temperature is 30^(@)C . The scale is correctly graduated for 0^(@)C . The coefficient of linear expansion of steel is alpha=1.2xx10^(-5)//^(@)C and the coefficient of volume expansion of mercury is gamma=1.8xx10^(-4)//^(@)C . Find the correct atmospheric pressure.

A glass flask with volume 200 cm^(3) is filled to the brim with mercury at 20^(@)C . How much mercury overflows when the temperature of the system is raised to 100^(@)C ? The coefficient of linear expansion of the glass is 0.40xx10^(-5)K^(-1) . Cubical expansion of mercury =18xx10^(-5)K^(-1) .

A glass 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 much 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 barometer reads 75.0 cm on a steel scale. The room temperature is 30^o C . The scale is correctly graduated for 0^C . The coefficient of linear expansion of steel is alpha=1.2 xx 10^(-5) C^(-1) and the coefficient of volume expansion of mercury is sigma=1.8 xx 10^(_4) C^(-1). ? Find the correct atmospheric pressure.

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?