1. A more correct name is Boyle-Mariotte law, because Mariotte discovered this lawafter Boyle but indepedently..
2. This law is a relation between pressure and volume at constant temperature. The equation is:
pV = k
where p is the pressure (variable), V is the volume (variable) , k is a constant specific for the system.
Boyle's law states that the absolute pressure and volume of a gas (if the temperature is kept constant within a closed system) is inversely proportional. If one doubles, the other is halved. So if we alter pressure, the volume changes. Therefore your variables are V and P. Volume and pressure
The temperature of the gas and the amount of the gas (specifically, the number of moles of the gas) must remain constant to apply Boyle's law. Boyle's law is usually written as:
P1V1 = P2V2
Where P represents the pressure of the gas and V represents the volume of the gas.
Variables in Boyle law: pressure and volume.
Variables in Charles law: volume and temperature.
The pressure and the volume.
The two laws having to do with pressure of gasses are Charles Law and Boyles Law.
The laws of resistance describes the resistance of a specific material. There are a total of four laws of resistance.
Boyle's and Charles' laws where not derived from the Ideal Gas Equation. The opposite is true. Boyle's and Charles' laws and a few other laws are used to derive the Ideal Gas Equation. Boyle's and Charles' laws are based on the authors observations of the behaviour of gases. They give a fair prediction at relative low pressures and high temperatures with respect to the gas Critical Pressure and Temperature. A real gas at a given pressure and temperature range can show a great deviation from the Ideal Gas, and that would also mean deviation from Boyle's and Charles' laws. Now, if what you mean is obtaining a relation between Pressure and Volume at constant Temperature, and another between Temperature and Volume at constant Pressure for a real gas, it can be done. But they won't look as simple and nice as Boyle's and Charles' laws.
Universal Applicability: Scientific laws apply consistently to a wide range of situations and conditions. They are not restricted to specific times, places, or circumstances. Consistency: Scientific laws are stable and do not change over time, assuming the conditions under which they apply remain constant. They provide a reliable framework for understanding natural phenomena. Mathematical Formulation: Many scientific laws can be expressed mathematically. The use of mathematical equations allows for precise predictions and quantitative analysis of relationships between variables.
The Laws of Physics was created in 1963.
They are both gas laws?
The two laws having to do with pressure of gasses are Charles Law and Boyles Law.
Both use two factors (Boyle's= pressure and volume of gas, Charles's= temperature and volume of gas), and describe the behavior of gas.
The volume of any gas is dependent on the pressure and temperature according to specific gas laws (Charles & Boyles) covered in any basic chemistry text. If my memory is correct the molecular weight of any gass will occupy 22.4 L of space at standard temperature and pressure.
boyles temprature
Charles Henry Laws died in 1958.
Charles Henry Laws was born in 1867.
The possessive form of "King Charles Laws" is "King Charles's Laws."
Boyle's law applies to pressures and volumes at constant temperature P1V1 = P2V2. Charles' Law applies to volume and temperature at constant pressure V1/T1 = V2/T2. With temperatures in Kelvin the relationship between temperature and volume is directly proportional.
There isn't any specific laws, there laws a like our laws, don't steal, harm, any of those.
Because their laws had a series of complicated variables that contributed to their law.
Because their laws had a series of complicated variables that contributed to their law.