Warm-up Make sure you’re ready for today’s quiz! How much heat is required to raise 25 grams of ice at -15 °C to steam at 118 °C? If I raise the temperature.

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Presentation transcript:

Warm-up Make sure you’re ready for today’s quiz! How much heat is required to raise 25 grams of ice at -15 °C to steam at 118 °C? If I raise the temperature of 100 grams of Nickel from 150 °C to 225 °C how much heat is used? The specific heat of Nickel is J/g°C

Gas Laws Part One UNIT 8, DAY 5 KIMREY 30 NOVEMBER 2012

Remember the Properties of Gases Have a Mass Are compressible Fill empty space completely Diffuse rapidly Exert pressure

Conversion Factors for Pressure These are listed on your reference table, so you won’t have to remember them on a test! 1.00 atm = kPa = 760. mmHg = 760. torr kPa means kiloPascals, so you may have to convert from Pascals into kiloPascals. Don’t ever forget your metric conversions!!!

Example A barometer shows the pressure to be 785 mmHg. What is the atmospheric pressure in atmospheres? Pascals? atm kPa 104,632 Pa

Gas Law A way to measure quantitatively the relationship between pressure, volume, and temperature Using these relationships, we can solve equations for unknowns of a gas!

Gas Law P = Pressure V = Volume T = Temperature 1 shows the initial conditions 2 shows the final conditions

Units Temperature must be in Kelvin  Degrees Celsius plus 273 = Temperature in Kelvin  You don’t even have to remember this! The reference tables show that 0 °C is the same as 273K Pressure can be in whichever unit you want, as long as you keep it in that unit (this means the unit of P 1 must be the same as the unit of P 2 )! Volume must be the same on each side. MAKE SURE YOU’RE PAYING ATTENTION TO THE UNITS!

Example A gas at 285 K, 5 atm, and 25 mL is cooled to 225 k and a volume of 15 mL. What is the new pressure? atm

The three laws If you hold one of the three variables constant, then we can see how a change of one will effect another. You don’t have to remember these three, but it is important to understand the relationships between the variables!

Volume is held constant Pressure and temperature are directly proportional. This means that, if volume is held constant and pressure is increased, temperature will increase as well.

Temperature is held constant Volume and pressure are inversely related. This means that, if temperature is held constant and pressure goes up, volume goes down. P 1 V 1 =P 2 V 2

Pressure is held constant Volume and temperature are directly proportional. This means that, when pressure is held constant, increasing volume will also increase temperature

Example A gas at 335 K and 1 atm is cooled to 285 K. What is the new pressure?

Example A gas at 4.00 atm and in a 20 mL container is moved to a container with a volume of 30 mL. What is the new pressure?

Example A gas at 305 K and 35 mL is heated to 400 k. What is its new volume?