A glass flask of volume `200cm^(3)` is just filled with mercury at `20^(@)C`. The amount of mercury that will overflow when the temperature of the system is raised to `100^(@)C` is `(gamma_(glass)=1.2xx10^(-5)//C^(@),gamma_(mercury)=1.8xx10^(-4)//C^(@))`

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) .

Two fines steel wires , fastened between the projectors of a heavy brass bar, are just taut when the whole system is at 0^(@)C . What is the tensile stress in the steel wires the temperature of the system is raised by 200^(@)C ? ( alpha_("glass") = 2 xx 10^(-5) ^(@)C ^(-1), alpha_("steel") = 1.2 xx 10^(-5)"^(@)C^(-1) , Y_("steel") = 200GNm^(-2) )

A glass beaker holds exactly 1 L "at" 0^@ C (a) What is its volume at 50^@ C ? (b) If the beaker is filled with mercury at 0^@ C , what volume of mercury overflows ehen the temperature is 50^@ C ? alpha _ g = 8.3 xx 10^-6 per ^@ C and gamma_Hg = 1.82 xx 10^-4 per ^@ 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 .

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) .

A fine steel wire of length 4 m is fixed rigidly in a heavy brass frame as ashown in figure . It is just taut at 20^(@)C . The tensile stress developed in steel wire it whole system is heated to 120^(@)C is :- ( Given alpha _("brass") = 1.8 xx 10^(-5) .^(@)C^(-1), alpha_("steel") = 1.2 xx 10^(-5) .^(@)C , Y_("steel") = 2 xx 10^(11) Nm^(-2), Y_("brass")= 1.7xx10^(7) Nm^(-2) )

A bakelite beacker has volume capacity of 500 c c at 30^@C . When it is partially filled with V_m volumne (at 30^@C) of mercury, it is found that the unfilled volume of the beaker remains constant as temperature is varied. If gamma_("beaker") = 6 xx 10^(-6).^@C^(-1) and gamma_("mercury") = 1.5 xx 10^(-4).^@C^(-1) , where gamma is the coefficient of volume expansion , then V_(m) (in cc) is close to __________.

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 flask of volume 10^3 cc is completely filled with mercury at 0^@C The coefficient of cubical expansion of mercury is 180xx10^(-6)//^(@)C and heat of glass is 40xx10^(-6)//^(@)C . If the flask in now placed in boiling water at 100^@C how much mercury will overflow?

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.