The pressure and volume are related because both are variable of indefinite which means that both are not positive or definite and they tend to vary by the object they are in.
The relationship between two variables whose ration is a constant value is a directly proportional relationship. An example of this is the ideal gas law, PV = nRT. Pressure and volume are directly proportional to the number of molecules of an ideal gas present ad the temperature.
I think you are talking about Charles's law (also known as the law of volumes) is an experimental gas law which describes how gases tend to expand when heated. At constant pressure, the volume of a given mass of an ideal gas increases or decreases by the same factor as its temperature on the absolute temperature scale. which can be written as:where V is the volume of the gas; and T is the absolute temperature. The law can also be usefully expressed as follows:The equation shows that, as absolute temperature increases, the volume of the gas also increases
The Direct Relation! Causes the molecules in the gas to flow away in the temeratures in a certain way. The above answer is non-sense... here ya go: The ideal gas law is: PV = nRT, where P = pressure, V = volume, n= number of moles, R = ideal gas constant, T = Temperature in K
The higher the pressure, the more easily a chemical diffuses. And seeing as pressure and temperature are directly related, the higher the temperature the more easily a chemical diffuses, and vice versa. This is caused by everything "wanting" to be equal, if there is a higher pressure, then it will diffuse to an area of lower pressure.
For the purpose of understanding this, think of temperature as movement - high temperature means the particles are excited, moving around with more energy. Think of pressure as how much those particles are 'trying to move apart' on average due to hitting each other and bouncing around. If you want to increase the temperature without making them interact more (pressure), they need more room to move (volume). It's a gross over-simplification of the physics, but it should help to visualize why the laws relating temperature, volume, and pressure are what they are.
Charles's Law describes the relationship between volume and temperature of a gas when pressure is constant. It states that the volume of a gas is directly proportional to its temperature when pressure is held constant.
they also become constant.
The relationship between pressure and volume (apex)
The relationship between temperature and pressure is that they are directly proportional in a closed system. This means that as temperature increases, pressure also increases, and vice versa. This relationship is described by the ideal gas law, which states that pressure is directly proportional to temperature when volume and amount of gas are constant.
The relationship between the adiabatic constant pressure, temperature, and volume of a system is described by the ideal gas law. When pressure is constant in an adiabatic process, the temperature and volume of the system are inversely proportional. This means that as the temperature of the system increases, the volume of the system will also increase, and vice versa.
The relationship between absolute temperature and volume of an ideal gas at constant pressure.
In Charles's Law, pressure is assumed to be constant because the law specifically focuses on the relationship between volume and temperature of an ideal gas when pressure is held constant. This allows for a direct proportionality between volume and temperature, showing that as temperature increases, the volume of a gas will also increase if pressure is held constant.
In an ideal gas, the relationship between pressure and temperature is described by the ideal gas law, which states that pressure is directly proportional to temperature when volume and amount of gas are constant. This means that as temperature increases, so does pressure, and vice versa.
The gas law that describes the inverse relationship between pressure and volume is Boyle's Law. It states that at constant temperature, the pressure of a gas is inversely proportional to its volume. In other words, as pressure increases, volume decreases, and vice versa.
In a closed system, temperature and pressure are directly related. As temperature increases, the pressure also increases, and vice versa. This relationship is described by the ideal gas law, which states that pressure is proportional to temperature when volume and amount of gas are constant.
Boyle's Law is the inverse relationship between pressure and volume.
As temperature increases so does volume as long as pressure remains constant.