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As the temperature of a gas increases, so does the volume.
They are directly proportional
According the kinetic theory of gases and Charles law increasing the temperature of a gas increases its volume. This is due to the increased collisions between gas molecules. With a larger volume and the same mass the gas's density decreases.
The gas expand to fill the volume of the container.
The ideal gas law is: PV = nRT, where P = pressure, V = volume, n= number of moles, R = ideal gas constant, T = Temperature in K.
Yes, it does affect the volume. The relationship between them can be explained by the equation pV=nRT (pressure x volume = number of moles of gas x molar gas constant x temperature). Therefore, there is a direct proportionality between temperature and volume. If the temperature doubles, so does the volume.
a temperature which gas can not be liquified by applying pressue.
As the temperature increases, so does the volume.
the relationship of gas volume and gas temperature is found in charels law
As the temperature of a gas increases, so does the volume.
This graph of Charles Law would show the relationship of volume of a gas as a function of the temperature at constant pressure.
The relationship between pressure and volume (apex)
They are directly proportional
According the kinetic theory of gases and Charles law increasing the temperature of a gas increases its volume. This is due to the increased collisions between gas molecules. With a larger volume and the same mass the gas's density decreases.
That is correct. it's called Charles's law. it shows the connection between a gases temperature and its volume. in order to maintain constant pressure you must increase the volume of the container holding the gas if you increase the temperature of the gas.
a solid has definite volume and shape, a liquid has definite volume but no shape. a gas has nor volume nor shape
JaMason the stud who is way kewler than JaZach and is equivilent to chuck norris, is the relationship between voltage and temperature.