Presentation is loading. Please wait.

Presentation is loading. Please wait.

CH1120.  Vary with respect to chemical properties but share some physical properties ◦ Low molar masses ◦ Non-metallic ◦ Expand spontaneously to fill.

Published byRosalind Gallagher Modified over 8 years ago

Similar presentations

Presentation on theme: "CH1120.  Vary with respect to chemical properties but share some physical properties ◦ Low molar masses ◦ Non-metallic ◦ Expand spontaneously to fill."— Presentation transcript:

1 CH1120

2  Vary with respect to chemical properties but share some physical properties ◦ Low molar masses ◦ Non-metallic ◦ Expand spontaneously to fill container ◦ Volume of gas = volume of container ◦ Compressible ◦ Form homogeneous mixtures readily  All physical properties arise due to molecules being relatively far apart

3  At room temperature: ◦ He ◦ Ne ◦ Ar ◦ Kr ◦ Xe ◦ H 2 ◦ N 2 ◦ O 2 ◦ F 2 ◦ Cl 2

4  An increase in volume at a constant temperature causes pressure to decrease ◦ Syringe filled with air  A temperature increase at constant volume causes pressure to increase ◦ Balloon in winter

5

6  SI unit = Pascal (Pa)  1Pa = 1N/m 2  1bar = 10 5 Pa  1atm = 760 torr = 760mmHg  1atm = 101.3Pa

7

8

9  Remember how to calculate K  K = ℃ + 273.15  Used in gas law equations

10

11

12

13

14  An inflated balloon has a volume of 6.0L at sea level (1.0atm) and is allowed to ascend until the pressure is 0.45atm. During ascent, the temperature of the gas falls from 22℃ to -21℃. Calculate the volume of the balloon at its final altitude.

15

16  Each gas behaves independently of other gases in a mixture  At constant temperature and constant volume the total pressure of a gas sample is determined by the total number of moles of gas present

17

18

19

20

21  Hypothetical gas whose pressure, volume, and temperature relationship are described completely by the ideal gas equation ◦ The molecules do not interact with one another ◦ The volume of the molecules is much smaller than the volume the gas occupies so we assume the molecules take up no space in the container  Very small error is introduced with these assumptions so it is acceptable ◦ When accurate calculations are needed we can correct for the assumptions

22  Unit depend on units of P, V, n, and T  T in Kelvin  n is in mols  P usually atm  V usually L

23 UnitsNumerical Value 0.0820582 8.314472 1.987 8.314 62.4

24  Calcium carbonate, CaCO 3(s) decomposes upon heating to CaO (s) and CO 2(g). A sample of CaCO 3 is decomposed, and the carbon dioxide is collected in a 250mL flask. After decomposition is complete, the gas has a pressure of 1.3atm at a temperature of 31℃. How many moles of CO 2 gas were generated?  Use R to determine the units for all of the other components of your equation.

25  When silver oxide is heated, it decomposes according to the reaction below. If 5.76g of Ag2O is heated and the O2 gas produced by the reaction is collected in a 0.65L flask at 25℃ what is the pressure of the O2 in the flask? 2Ag 2 O (s)  4Ag (s) + O 2(g)

26

27

28  0℃ and 1atm are referred to as STP ◦ Standard temperature and pressure

29

30  A sample of pure helium gas occupies a volume of 6.8 L at STP, how many grams of helium are present?

Download ppt "CH1120.  Vary with respect to chemical properties but share some physical properties ◦ Low molar masses ◦ Non-metallic ◦ Expand spontaneously to fill."

Similar presentations

Gas Stoichiometry Molar Volume of an Ideal Gas

Gas Stoichiometry Molar Volume of an Ideal Gas
Chapter 5: GASES Part 2.

Chapter 5: GASES Part 2.
Section 2 – The Gas Laws Scientists have been studying physical properties of gases for hundreds of years. In 1662, Robert Boyle discovered that gas.

Section 2 – The Gas Laws Scientists have been studying physical properties of gases for hundreds of years. In 1662, Robert Boyle discovered that gas.
Gases Chapter 5 E-mail: benzene4president@gmail.com Web-site: http://clas.sa.ucsb.edu/staff/terri/

Gases Chapter 5 Web-site:
Gaseous State Chapter 9.

Gaseous State Chapter 9.
Chapter 12 Gases. What is the pressure of the gas in the bulb? 1. P gas = P h 2. P gas = P atm 3. P gas = P h + P atm 4. P gas = P h - P atm 5. P gas.

Chapter 12 Gases. What is the pressure of the gas in the bulb? 1. P gas = P h 2. P gas = P atm 3. P gas = P h + P atm 4. P gas = P h - P atm 5. P gas.
Stoich with Gases!. How do we figure out how many particles there are in a gas sample?

Stoich with Gases!. How do we figure out how many particles there are in a gas sample?
Gas Laws Mr. Gates Created by Educational Technology Network. www.edtechnetwork.com 2009.

Gas Laws Mr. Gates Created by Educational Technology Network
White Board Races Ch. 11 Gas Laws Review Game. Question What is the temperature and pressure for STP?

White Board Races Ch. 11 Gas Laws Review Game. Question What is the temperature and pressure for STP?
Chapter 13: Gases. What Are Gases? Gases have mass Gases have mass.

Chapter 13: Gases. What Are Gases? Gases have mass Gases have mass.
Catalyst Review your Mock AP exam score and complete the reflection sheet Turn into bin when completed.

Catalyst Review your Mock AP exam score and complete the reflection sheet Turn into bin when completed.
Gas Notes I. Let’s look at some of the Nature of Gases: 1. Expansion – gases do NOT have a definite shape or volume. 2. Fluidity – gas particles glide.

Gas Notes I. Let’s look at some of the Nature of Gases: 1. Expansion – gases do NOT have a definite shape or volume. 2. Fluidity – gas particles glide.
Third Nine Weeks- 6 weeks review

Third Nine Weeks- 6 weeks review
Gases Chapter 12 pp. 470-508. General properties & kinetic theory Gases are made up of particles that have (relatively) large amounts of energy. A gas.

Gases Chapter 12 pp General properties & kinetic theory Gases are made up of particles that have (relatively) large amounts of energy. A gas.
 The average kinetic energy (energy of motion ) is directly proportional to absolute temperature (Kelvin temperature) of a gas  Example  Average energy.

 The average kinetic energy (energy of motion ) is directly proportional to absolute temperature (Kelvin temperature) of a gas  Example  Average energy.
CHEM 5013 Applied Chemical Principles Chapter Five Professor Bensley Alfred State College.

CHEM 5013 Applied Chemical Principles Chapter Five Professor Bensley Alfred State College.
Ch. 12 Behavior of Gases. Gases Gases expand to fill its container, unlike solids or liquids Easily compressible: measure of how much the volume of matter.

Ch. 12 Behavior of Gases. Gases Gases expand to fill its container, unlike solids or liquids Easily compressible: measure of how much the volume of matter.
Gases.

Gases.
Chapter 9 Gases: Their Properties and Behavior. Three States of Matter SolidsLiquidsGases.

Chapter 9 Gases: Their Properties and Behavior. Three States of Matter SolidsLiquidsGases.
Gases: Their Properties and Behavior

Gases: Their Properties and Behavior

Similar presentations

Ads by Google