CHEMISTRY

1. CHEMISTRY April 17th, 2012

2. Brainteaser FRIDAY 4/20/12 • Tell me how your are going to explain what happened in your experiment and WHY it happened to the rest of the class today during your presentations. • Please give me the title of your experiment too.

3. Brainteaser MONDAY 4/23/12 • According to the KMT, what happens to pressure when you: • increase the temperature? • Increase volume? • Increase the amount of gas molecules? • Decrease volume?

4. Objectives • Pressure and Volume: Boyle’s Law • Understand the law that relates the pressure and volume of a gas • To do calculations involving this law • Volume and Temperature: Charles’ Law • To learn about absolute zero. • To learn about the law relating the volume and temperature of a sample of gas at constant temperature • To do calculations involving this law. • The Combined Gas Law • The Ideal Gas Law • To understand the ideal gas law and use it in calculations.

5. Boyle’s Law: Pressure and Volume • Boyle’s law states that the pressure and volume of a gas at constanttemperature are inversely proportional. • Inverse relationship • As pressure increases, volume decreases • As pressure decreases, volume increases • This is Boyle’s Law • PV = k

6. Boyle’s Law • We can use Boyle’s Law to compare: • Volume, at two pressures • Pressure, at two volumes • In mathematical terms, this law is expressed as follows: • Temperature and mass (# of particles) are constant

7. Boyle’s Law: Pressure and Volume • A sample of compressed methane has a volume of 648 mL at a pressure of 503 kPa. • To what pressure would the methane have to be compressed in order to have a volume of 216 mL?

8. Charles’ Law: Temperature & Volume • Charles’s Law states that, for a given amount of gas at constant pressure, the volume is directly proportional to the temperature (in kelvins). • Direct Relationship • Temperature increases, volume increases • Temperature decreases, volume decreases • This is Charles’ Law • V = k T

9. Charles’ Law: • At -273 deg C or (O K), the volume of gas extrapolates to zero. • This temperature is called the absolute zero. • Absolute zero is the lowest possible theoretical temperature. • Theoretically, at absolute zero, the kinetic energy of particles is zero, so all motion of gas particles at that point ceases.

10. Charles’ Law: Temperature and Volume • We can use Charles’ Law to compare: • Temperature, at two volumes • Volume, at two temperatures • In mathematical terms, this law is expressed as follows: • Pressure and mass (# of particles) must be constant

11. Charles’ Law • A weather balloon contains 5.30 kL of helium gas when the temperature is 12°C. • At what temperature will the balloon’s volume have increased to 6.00 kL?

12. Brainteaser WED/THURS 25-26 • A gas at 330 K occupies a volume of 0.250 L. What volume will be occupied if the temperature drops to 273 K?

13. Combined Gas Law:Temperature, Volume, and Pressure • Boyle’s Law and Charles’ Law can be combined to look at all 3 variables. • This is the Combined Gas Law: • Temperature must be in Kelvin (K) • K = C + 273 • Use the combined gas law when pressure, volume or temperature are changing.

14. Combined Gas Law • A sample of nitrogen monoxide has a volume of 72.6 mL at a temperature of 16°C and a pressure of 104.1 kPa. • What volume will the sample occupy at 24°C and 99.3 kPa?