A one litre flask contains some mercury. It is found that at different temperatures the volume of air inside the flask remains the same. The volume of mercury in the flask is `(alpha_(glass)=9xx10^(-6)//^(@)C,gamma_(Hg)=180xx10^(-6)//^(@)C)`

A two litre glass flask contains some mercury. It is found that at all temperatures the volume of the air inside the flask remains the same. The volume of the mercury inside the flask is ( alpha for glass =9xx10^-6//^@C,gamma for mercury 1.8xx10^-4//^@C)

A two litre glass flask contains some mercury. It is found that at all temperatures the volume of the air inside the flow remains the same. The volume of the mercury inside the flask is (alpha for glass = 9 xx 10^-6/^@C, gamma for mercury 1.8 xx 10^-4/^@C)

A one litre flask contains some mercury. It is found that at different temperatures the volume of air Inside the flask remains the same. What is the volume of mercury in flask? Given coefficient of linear expansion of glass = 9xx10^-6//^@C , 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 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 ?