This is the necessary heat to raise the temprataure of 1 mol with 1 kelvin, at constant volume.
Another way to say heat capacity is thermal capacity.
Assuming we are dealing with a gas, the ideal gas equation can be used.P*V = n*R*Twe can solve for n asn = (P*V)/(R*T)R can be defined for a specific gas to give the specific gas constant. In which case, we notate as "R-bar".R-bar = R/atomic massIf the solution under consideration is a liquid or a solid, the ideal gas equation is not valid. Given the volume of the liquid or solid, we can calculate the mass from the density sincedensity = mass/volumeThen we can find the number of moles of the substance by dividing the mass by the molar mass (check your units on this step).mass/molar mass = number of moles
This question is wrong. Heat capacity at constant pressure is more than that at constant volume. And Heat capacity at constant pressure - Heat capacity at constant volume= R Cp - Cv= R ,where R is universal gas constant.
This a solid.
A solid has a constant volume and a determinate shape.A liquid has a constant volume but an indeterminate shape.A gas has an indeterminate volume and an indeterminate shape.liquids have a constant volume at a constant temperature, and take the shape of their container.
A solid has a constant volume and a determinate shape.A liquid has a constant volume but an indeterminate shape.A gas has an indeterminate volume and an indeterminate shape.liquids have a constant volume at a constant temperature, and take the shape of their container.
The molar heat of uranium is 27.665 J/mol.K.
Gases adopt the form of the container it contains an hasn't a constant volume.. A liquid adopt the form of the container it contains but has a constant volume. A solid has form and constant volume.
Because it has a specific volume and a specific shape.
solid- atoms more tightly packed specific shape and volume liquid- atoms slightly less tightly packed, no specific shape, specific volume
Yes. That is one of the properties that distinguishes it from liquids or gasses, both of which do not. ■
In the solid and liquid states of matter, volume is constant because the amount of matter does not change. In a gas however volume can change because of the amount of pressure and the temperature, which heats up the particles making them move around more and take up more space.