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Cubical expansion is the increase in volume that occurs when a substance is heated. This expansion is directly proportional to temperature change, as the molecules in the substance gain kinetic energy and move apart, causing the overall volume to increase. The amount of expansion can be calculated using the coefficient of cubical expansion, which varies for different materials.
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What is the definition of cubical expansion?
Cubical expansion refers to the increase in volume of a substance as it is heated. This expansion can be calculated using the coefficient of cubical expansion, which quantifies how the volume of a material changes with temperature.
What is meant by cubical expansion?
Cubical expansion refers to the increase in volume of a substance when its temperature increases. It is governed by the coefficient of cubic expansion, which quantifies how much the volume of a substance changes with temperature.
What is coefficient of cubical expansivity?
The coefficient of cubical expansivity is a measure of how the volume of a substance changes with temperature. It is defined as three times the linear coefficient of thermal expansion. It is denoted by the symbol β and has units of K^-1.
What is the cubical expansion coefficient of a liquid salt solution?
The cubical expansion coefficient of a liquid salt solution is a measure of how its volume changes with temperature. It is influenced by the specific type and concentration of salt in the solution, as well as the temperature range over which it is measured. Typically, the coefficient is reported in units of volume per unit volume per degree Celsius.
Does the cubical expansivity of a liquid depend on its original volume?
No. The expansivity is on a per unit basis just like the specific heat or density is.
