Since volume is an extensive property, there is no particular constant associated with it - indeed, by virtue of being an extensive property, it is not constant unless the mass, temperature, pressure, phase, and composition remain constant.
There are, of course, conversion factors between different volume units - and the conversion factors are constants.
A liquid has a constant volume but no fixed shape.
At a constant volume the pressure increase.
If an object's volume remains constant but its volume is decreased,its density becomes ambiguous and mutually inconclusive.
Yes it has! the specific heat of water at constant volume is given by cV : Heat capacity at constant volume cP : Heat capacity at constant pressure : Thermal expansion coefficient : Isothermal compressibility : Density
if kelvin temp is halved, the volume is halved if pressure is constant.
The volume is constant. The pressure will increase.The volume is constant. The pressure will increase.
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.
Increasing the temperature of a gas will increase it's pressure ONLY if the volume is held constant.
One is for constant pressure, the other is for constant volume. These are not the same; for example, if the pressure is maintained constant, and the gas is heated, the volume changes.
The constant Volume process, also known as Isovolumetric, is where the volume is constant and does not change. In a P, V, Diagram this should be where volume is constant where Pressure is increased. The work done (area under the curve) would be = to 0 in this case.
At constant temperature p.V=constant, so pressure INcreases when decreasing the volume.
A liquid has a constant volume but no fixed shape.
At a constant volume the pressure increase.
If an object's volume remains constant but its volume is decreased,its density becomes ambiguous and mutually inconclusive.
directly proportional to the Kelvin temperature
Yes it has! the specific heat of water at constant volume is given by cV : Heat capacity at constant volume cP : Heat capacity at constant pressure : Thermal expansion coefficient : Isothermal compressibility : Density