The relationship between absolute temperature and volume of an ideal gas at constant pressure.
The possessive form is King Charles's laws.
This graph of Charles Law would show the relationship of volume of a gas as a function of the temperature at constant pressure.
Charles Henry Laws died in 1958.
Charles Henry Laws was born in 1867.
You can show any kind of relationship in a graph. One of my favourites is Charles Minard's graph illustrating Napoleon's army marching into and retreating from Russia.See //en.wikipedia.org/wiki/French_invasion_of_Russia#Weather_as_a_factor
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.
Dribbling in basket (or other sport) has not a link with Boyle or Charles laws.
The relationship between temperature and volume
A graph of Charles Law shows the relationship between temperature and volume of gas.
The Nuremburg Laws were laws that prohibited Jew's to have any relationship or marry German's
Many laws of gases are known: Boyle-Mariotte, Gay-Lussac, Avogadro, Henry, Charles, Graham.
you punch them.