A solid floats in a liquid at `20^@`C with 75 % of it immersed. When the liquid is heeated to `100^@`C, the same solid floats with `80%` of it immersed in the liquid. Calculate the coefficient of expansion of the liquid. Assume the volume of the solid to be constant.

A solid body floats in a liquid at 50°C with 84% of its volume immersed. When the liquid is heated to 100°C, it floats with 88% immersed. Determine the coefficient of volume expansion of the liquid (in 10^(-3)//""^(@) C )

A non-conducting body floats in a liquid at 20^@C with 2/3 of its volume immersed in the liquid. when liquid temperature increased to 100^@c , 3/4 of body's volume 3. 4 is immersed in the liquid. Then the coefficient of real expansion of the liquid is (neglecting the expansion of container of the liquid)

A non-conducting body floats in a liquid at 20^(@)C . with 2//3 of its volume immersed in the liquid When liquid temperature is increased to 100^(@)C, 3//4 of body volume is immersed in the liquid. Then the coefficient of real expansion of the liquid is... (neglecting the expansion of container of the liquid)

A non-conductiong body floats in a liquid at 25^(@)C with 1//3 of its volume immersed in the liquid. When liquid temperature is increased to 105^(@)C, 1//2 of body's volume is immersed is the liquid. Then, find the coefficient of real expansion of the liqquid (neglecting the expansion of container of the liquid) .

A non-conductiong body floats in a liquid at 25^(@)C with 1//3 of its volume immersed in the liquid. When liquid temperature is increased to 105^(@)C, 1//2 of body's volume is immersed is the liquid. Then, find the coefficient of real expansion of the liqquid (neglecting the expansion of container of the liquid) .

A solid floats in a liquid in a partialy dipped position.

A solid floats in a liquid in a partially dipped position.

A solid floats in a liquid in a partially dipped position.