By: Mikayla, Molly, Krystelle, Janmae, Angela, & Sam CHARLES’ LAW By: Mikayla, Molly, Krystelle, Janmae, Angela, & Sam

Charles’ Law AKA “Law of Volumes” Describes how gases tend to expand when heated gas expands as the temperature increases a decrease in temperature will lead to a decrease in volume Charles' Law states: the volume of a fixed amount of gas maintained at constant pressure is directly proportional to its absolute temperature. This directly proportional relationship can be written as: V is the volume of the gas T is the temperature of the gas (measured in Kelvin)

Pics/Vids.. Or it didn’t happen.. This gif shows how the rise in temperature affects the volume of something by increasing it. https://m.youtube.com/watch?v=GcCmalmLTiU

Applying Charles' Law: Example #1 The plunger on a turkey syringe thermometer pops out when the turkey is done. The volume of air trapped under the plunger increases when the temperature inside the turkey climbs

Applying Charles' Law: Example #2 Question: 4.40 L of a gas is collected at 50.0 °C. What will be its volume upon cooling to 25.0 °C? 1.) Convert 50.0 °C to 323 K and 25.0 °C to 298 K. - Standard temperature (273 K) + Given Degrees in Celsius 2.) Plug into standard equation. 3.) Cross multiply and divide. - x= 4.06 L

Applying Charles' Law: Example #3 Question: A gas is collected and found to fill 2.85 L at 25.0 °C. What will be its volume at standard temperature? Solution: Convert 25.0 °C to Kelvin and you get 298°K *Standard temperature: 273°K, then plug into equation: Cross-multiply and divide to get: X= 2.61 L

Gay-Lussac’s Law By: Sienna Garcia, Jamie Guevara, Aja Estrada-Kissamitakis, Maddie Santos, Eve Vazquez, and Yasmine Ztinztun

Gay-Lussac's Law Definition Gay-Lussac's law is an ideal gas law where at constant volume, the pressure of an ideal gas is directly proportional to its absolute temperature. If you increase the temperature of the gas the pressure rises proportionally. Pressure and temperature will both increase or decrease simultaneously as long as the volume is held constant. Gay-Lussac's Law states that the pressure of a fixed amount of gas at fixed volume is directly proportional to its temperature in kelvins.

Gay-Lussac Law Equation P1= initial pressure T1= initial temperature P2= final pressure T2= final temperature -Note that the units for pressure do not matter, as long as they are the same throughout the entire equation. -The units for temperature must be Kelvins or the equation will not work, because the Kelvin scale is an absolute scale - it doesn't go negative. -Finally, this equation only works for an ideal gas. Most gases that surround us behave very much like ideal gases, so we can use this equation as an approximation for the gases we encounter.

Gay-Lusacc’s Law Example 1) Consider a container with a volume of 22.4 L filled with a gas at 1.00 atm at 273 K. What will be the new pressure if the temperature increases to 298 K? =1.09 atm

Boyle’s law By: Kaela Santos, Pia Portiz, Kihomi Sasaki, Nataly Gallo, Jessica Pasion, and Alexandra Peña

FORMULA For a fixed amount of an ideal gas at a constant temperature, pressure and volume are inversely proportional PV = k (P1)(V1) = (P2)(V2) P denotes the pressure of the system V denotes the volume of the gas K is a constant value representative of the pressure and volume of the system Pressure-volume product will always be the same value if the temperature and amount remain constant.

Examples You can determine the missing pressure or volume that is needed to be found with the equation: P1V1 = P2V2 #1 2.00 L of a gas is at 740.0 mmHg pressure. What is its volume when the pressure is 760.0 L? #2 5.00 L of a gas is at 1.08 atm. What pressure is obtained when the volume is 10.0 L?

Answers #1 (740.0 mmHg) (2.00 L) =(760.0 mmHg) (x) x= 1.95 L #2 (1.08 atm) (5.00 L) =(x) (10.0 L) x= .54 atm

Avogadro’s Law By Malea Arriola, Maggie Bailon, Jazmine Morales, Kristine Necor, Melanie Paredes, Jamie Renta, Marifel Retuta

Avogadro’s Law Equal volume of gases at the same temperature and pressure contain the same number of particles

Real Life Examples of Avogadro's Law As you pump air (a form of gas) into a flat basketball, it inflates because you are adding pressure into it. more pressure = increase volume