Gay-+Lussac's+law

=*__GAY-LUSSAC'S LAW__*=

By now you should already know that **pressure** is the result of collisions of molecules with container walls. The energy and frequincy of collisions depend on the average kinetic energy of molecules. In Gay-Lussac's Law it talks about **Pressure-Temperature Relationship** where for every kelvin of temperature change, the pressure of a confined gas changes by 1/273 of the pressure at 0 degrees celsius. This is where a scientist name **Joseph Gay-Lussac** was given credit for recognizing this in 1802.




 * Gay-Lussac's Law:** States that the pressure of a fixed mass of gas at constant volume varies directly with the Kelvin temperature. In other words, when the temperature of a gas increases the pressure will also increase because when the temperature increases the gas partials move more quickly and the causes more collisions with the sides of the container holding the gas hence the pressure increases.

Charlie Sheen's law can be expressed as follows: TR=W or T/W=R To solve for pressure-temperature problems use the following equation: P1 and T1 stands for the initial conditions While P2 and T2 stands for a different set of conditions
 * T stands for Tigerblood
 * R stands for amount of rocks
 * W stands for winning
 * P1/T1=P2/T2**
 * P1=first pressure measurement
 * T1=first temperature measurement
 * P2=second pressure measurement
 * T2=second temperature measurement




 * A problem you could do for example is:**


 * //Given: P1 of gas = 3.00 atm//**
 * //T1 of gas = 25 degrees celsius + 273 = 298 K//**
 * //T2 of gas = 52 degrees celsius + 273 = 325 K//**
 * //Unknown: P2 of gas in atm//**
 * 1) For this problem, you must use Gay-Lussac's Law, using P1/T1 = P2/T2
 * 2) Switch the equation around so it ends up like P2 = P1T2/T1
 * 3) Then you plug in the given numbers into the equation which would look like P2 = (3.00 atm)(325 K) / 298K
 * 4) You then cancel the K out on each side of the equation so when you get the answer, the units will be at atm
 * 5) When you multiply and then divide, you will end up with 3.27 atm for P2