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A sphete of deamrter 7.0 cm and mass 266...

A sphete of deamrter 7.0 cm and mass 266.5 g float in a bath of liquid. As the temperature is raised, the sphere begins to sink at a temperature of `35^@ C`. If the density of liqued is `1.527 g cm^(-3)` at` 0^@C`, find the coeffiecient of cubical expamsion of the liquid. Neglect the expansion of the sphere.

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A sphete of deamrter 7.0 cm and mass 266.5 g float in a bath of liquid. As the temperature is raised, the sphere begins to sink at a temperature of 35^0 c. If the density of liqued is 1.527 g cm^(-3) at 0^c, find the coeffiecient of cubical expamsion of the liquid. Neglect the expansion of the sphere.

A sphere of diameter 7.0 cm and mass 266.5 g float in a bath of liquid. As the temperature is raised, the sphere begins to sink at a temperature of 35^@ C . If the density of liquid is 1.527 g cm^(-3) at 0^@C , find the coefficient of cubical expansion of the liquid. Neglect the expansion of the sphere.

A sphere of diameter 7.0 cm and mass 266.5 g float in a bath of liquid. As the temperature is raised, the sphere begins to sink at a temperature of 35^0 C . If the density of liquid is 1.527 g cm^(-3) at 0^o C , find the coefficient of cubical expansion of the liquid. Neglect the expansion of the sphere.

A sphere of diameter 7.0 cm and mass 266.5 g float in a bath of liquid. As the temperature is raised, the sphere begins to sink at a temperature of 35^0 C . If the density of liquid is 1.527 g cm^(-3) at 0^o C , find the coefficient of cubical expansion of the liquid. Neglect the expansion of the sphere.

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