The coefficient of real expension of mercury is `18 xx 10 ^(-5//@)C`.The thermometer bulb has a volume of `10^(-6) m^(3)` and cross- section of the steam is `0.002 cm^(2)`. Assuming that the bulb is filled with mercury at `0^(@)C` , the length of the mercury column at `100^(@)C` will be

The coefficient of volumetric expansion of mercury is 18xx10^(-5)//^(@)C . A thermometer bulb has a volume 10^(-6)m^(3) and cross section of stem is 0.004 cm^(2) . Assuming that bulb is filled with mercury at 0^(@)C then the length of the mercury column at 100^(@)C is

The coefficient of real expansion of mercury is 18 times 10^(-5@)C^(-1) . A thermometer has a bulb of volume 10^(-6)m^(3) and the cross-section of the stem is 0.002 cm^(2) . Assuming the bulb to be filled with mercury at 0^(@)C , find the length (in cm) of the mercury column at 100^(@)C .

Coefficient of real expension of mercury is 0.18 xx 10^(-3//@)C . If the density of mercury at 0^(@)C is 13.6 g//C C , its density at 473 K will be

The volume of mercury in the bulb of thermometer is 10^(-6) m^(3) . The area of cross-section of the capillary tube is 2 xx 10^(-7) m^(2) . If the temperature is raised by 100^(0)C , the increase in the length of the mercury column is (gamma_(Hg) = 18 xx 10^(-5//@)C)

The volume of mercury in the bulb of thermometer is 10^(-6) m^(3) . The area of cross-section of the capillary tube is 2 xx 10^(-7) m^(2) . If the temperature is raised by 100^(0)C , the increase in the length of the mercury column is (gamma_(Hg) = 18 xx 10^(-5//@)C)

Volume of mercury in the bulb of a thermometer is 10^(-6)m^(3) . Area of cross section of capillary tube is 2xx10^(-7)m^(2) . If the temperature is raised by 100^(@)C , the length of mercury column is (gamma_(Hg)=18" "10^(-5)//""^(@)C)

coefficient of real expansion of mercury is 0.18xx10^(-3)//""^(@)C . If the density of mercury at 0^(@)C is 13.6 gm/c.c., its density at 573 K will be

Coefficient of apparent expansions of mercury is 0.18 xx 10^(-3)//^(0)C . If the density of mercury at 0^(0)C is 13.6 g//c c its density at 473K will be

Coefficient of apparent expansions of mercury is 0.18 xx 10^(-3)//^(0)C . If the density of mercury at 0^(0)C is 13.6 g//c c its density at 473K will be