3/12/2012 Standards: 4 (Gases & Their Properties) Objectives: ● Complete Dalton's Law Lab ● Introduce PV = nRT (R = constant which = 0.0821) DO NOW: 1.

Slides:

Advertisements

Similar presentations

Ch – Ideal Gases -Avogadro’s Law (extension) -STP & molar volume of gas (review) -Ideal Gas Law (most important)

Advertisements

Gasses and Kinetic Theory

CHEMISTRY Wednesday/Thursday April 25 th -26 th, 2012.

2/25/2013 Standard: 4 (Gases and their Properties) OBJECTIVES: ● Complete "Discovering direct & inverse in PV = nRT - Mini-Lab" ● Students will understand.

3/19/2012 Standards: 4 (Properties of Gases) Objectives: ● Work HW problems so students can perform HW using PV = nRT ● Students will be able to do on-line.

Quiz 5/13/04 Identify the quantities from the units: K 2.15kPa dm mL atm 6.If 5.0 ml of a gas at a constant temperature at.

Warmup: 1. The volume of a gas is mL at 22. 0°C and atm

Standard Temperature and Pressure (STP) 1 atm pressure 0 ºC or 273 K.

Molecular Composition of Gases

HONORS CHEMISTRY May 6, 2014.

3/4/2013 Standards: 4 (Gases and their Properties) OBJECTIVES: ● Prepare for Quiz 3.3 (Ch 13.1 & 14), doing HW in class ● Use responder questions to review.

Gas Law Notes Chemistry Semester II Ideal Gas Law Combined Gas Law And Guy Lussac’s Law.

1 CHAPTER 11 Gases and their Properties. 2 Density Comparison The density of gases is much less than that of solids or liquids: compoundSolid density.

Ch. 11 Molecular Composition of Gases

Unit 8 Chemistry Langley

Gases The Ideal Gas Law.  Objectives  State the ideal gas law  Using the ideal gas law, calculate pressure, volume, temperature, or amount of gas when.

Ideal Gas Law PV=nRT Kinetic Molecular Theory 1. Gases have low density 2. Gases have elastic collisions 3. Gases have continuous random motion. 4. Gases.

3/5/2012 Standards: 4 Properties of Gases Objectives: ● Be able to calculate KE and Rate of Effusion ● Expose students to gas simulators (3) and students.

Gas Laws Why Gases Behave As They Do. Factors Affecting Gases Pressure  Atmosphere  mm Hg, Torr  psi (pounds per square inch; #/in 2 )  Paschal (N/

Ideal Gas Law (Equation):

Ideal Gas Law. For every problem we have done, we also could have used the ideal gas law. On the test, you will have to do a couple of problems with the.

Chapter 11 Molecular Composition of Gases. Avogadro’s Law Equal Volumes of Gases at the Same Temperature & Pressure contain the Same Number of “Particles.”

IDEAL GAS LAW & Avogadro’s Law What is the IDEAL GAS LAW? What are the variables involved? What is Avogadro’s Law and didn’t I already learn about him.

b The good news is that you don’t have to remember all three gas laws! Since they are all related to each other, we can combine them into a single equation.

Ideal Gas Law & Gas Stoichiometry. Ideal Gas Law P V = n R T P = Pressure (atm) V = Volume (L) T = Temperature (K) n = number of moles R is a constant,

Day 1 I CAN… – Understand and apply Boyle’s Law – Understand and apply Charles’ Law – Observe and explain demos using gas laws.

I. The Gas Laws Ch Gases. A. Boyle’s Law b The pressure and volume of a gas are inversely related at constant mass & temp P V P 1 V 1 = P 2 V 2.

Gases. Do Now Find the formula weight of SO 4 2- Mo(NO 3 ) 3 Find the amount of moles in 100g of Sulfate.

Section 13.2 Using Gas Laws to Solve Problems. Section 13.2 Using Gas Laws to Solve Problems 1.To understand the ideal gas law and use it in calculations.

Objectives To learn about atmospheric pressure and how barometers work

CH4(g) + 2O2(g)  CO2(g) + 2H2O (g)

2/11/13 NO School Lincoln's Birthday. 2/12/2013 Standards: 3 (Stoichiometry) Objectives: ● Students will be able to perform well on Quiz 3.2 (Ch 11 and.

1/21/2013 NO SCHOOL - MLK DAY. 1/22/2013 Standards: 3 (Stoichiometry) Objectives: ● be able to: mol mass (compounds) DO NOW: 1. Convert mol KMnO.

Chapter 14-3 I. Avogadro’s Principle A. Equal volumes of gases at same T and P contain equal #’s of molecules B. H 2 + Cl 2 → 2HCl 1 vol. 1 vol. 2 vol.

Ideal vs. Real Gases No gas is ideal. As the temperature of a gas increases and the pressure on the gas decreases the gas acts more ideally.

Chapter 14-3 I. Avogadro’s Principle A. Equal volumes of gases at same T and P contain equal #’s of molecules B. H 2 + Cl 2 → 2HCl 1 vol. 1 vol. 2 vol.

Ch. 5 Gases!!!!!. Pressure conversions O Pressure – force per unit area O Can be measured in atm, mmHg, torr, kPa, psi O 1atm =760mmHg = 760torr = 101.3kPa=

Ideal Gases. Ideal Gas vs. Real Gas Gases are “most ideal”… at low P & high T in nonpolar atoms/molecules Gases are “real”… Under low T & high P when.

Chapter 11 The Behavior of Gases. Kinetic Theory Kinetic Theory – all molecules are in constant motion. –Collisions between gas molecules are perfectly.

For today's quiz questions, first form groups of 4, everyone gets a responder. Dalton - Combined - Ideal.

Unit 1 Gases. Ideal Gases Objectives 1. Compute the value of an unknown using the ideal gas law. 2. Compare and contrast real and ideal gases.

Chapter 19 Avogadro’s Principle. Avogadro's Principle states that equal volumes of gases at the same temperature and pressure contain an equal number.

Charles’ Law V 1 = V 2 T 1 T 2 Volume is directly proportional to temp (Pressure constant) Boyle’s Law P 1 V 1 = P 2 V 2 Pressure is inversely proportional.

Thursday Welcome, Practice Tests, Labs Round 2 tests Temperature & Pressure Conversions Combined Gas Law –M STP Molar Volume Ideal Gas Law.

THIS IS With Host... Your TRUE & FALSE GAS LAWS Direct vs Inverse SOLVE THIS Lab Days Units! We Don’t need Units.

Ideal Gas Law Van der Waals combined Boyle’s and Charles’ Laws.

Chapter 11 Gases Pages The Gas Laws Robert Boyle discovered that doubling the __________ on a sample of gas at a constant temperature (because.

Chapter 10: Gases STP *standard temp and pressure temp= K, 0ºC pressure= 101.3kPa, 1atm, 760mmHg, 760torr Problems Convert: a) 0.357atm  torr b)

Warm up Convert 65.0 mmHg to atm Reference: 1 atm = 760 mmHg = kPa 2. A helium balloon has a volume of 2.75 L at 20 ºC. the volume decreases.

The Ideal Gas Law. Remember… and In an Ideal Gas, Therefore, in an Ideal Gas, Combined Gas LawAvogadro.

GAS LAWS Boyle’s Charles’ Gay-Lussac’s Combined Gas Ideal Gas Dalton’s Partial Pressure.

Ideal Gas Law & Gas Stoichiometry Work out each problem in the 3-step format. Gases notes #4 - Ideal Gas Law & Gas Stoichiometry.pptx.

Warm up What will happen to the same balloon for the following weather conditions (draw): A) Cold Antarctic B) Hot Desert 2. Determine the volume.

Gas Laws 1.00 atm = 760 torr = 760mmHg = 14.7psi = 101.3kPa Standard Temperature and Pressure (STP) = 1.00 atm at 273K.

Drill – 3/8/11 What are properties of gases? Write what you know about gases!

Gases. Units of Pressure 1atm. = 760mm Hg (torr) = 101,325 pascals (Pa) = kPa = psi.

Do Now 1/20/15 1. What is the combined gas law equation? 2. You have 17 L of gaseous F 2 at a pressure of 2.3 atm and a temperature of 299K. If you raise.

Chapter 14 Behavior of Gases. I KnowFuzzy Need to Learn I will learn to List and explain the properties of a gas and explain how the kinetic molecular.

Collisions with gas particles are elastic.

Chapter 14 The Behavior of Gases 14.3 Ideal Gases

To understand the Ideal Gas Law and use it in calculations

DO NOW Turn in your blue Big Chill sheet.

Objectives To understand the ideal gas law and use it in calculations

The Combined Gas Law and the Ideal Gas Law

No, it’s not related to R2D2

Ideal Boyles Lussac Charles

Presentation transcript:

3/12/2012 Standards: 4 (Gases & Their Properties) Objectives: ● Complete Dalton's Law Lab ● Introduce PV = nRT (R = constant which = ) DO NOW: 1. Read: Dalton's Law Lab - (computer) Std 4 2. Complete Dalton's Law lab (all calcs) (10 pts) Std 4 HOMEWORK: 1. SN Ch 14.2, p (2 pts) Std 4 2. Ch PP's, p (3 pts) Std 4 ========================================================== BASKET: ● Journal 3/9 1. Gay-Lussak, p (show given, find, calcs) 3 pts Std 4 2. Boyles's Law Worksheet (handout) - Show given, find, & calcs - 5,6,7 (a&b), 9 (a&b),11 (a&b),17 (a&b),19 (a&b), and 21 (5 pts) Std 4

R =

3/13 & 3/14/2012 Standards: 4 (Gases & Their Properties) CAHSEE Objectives: ● Review results of Dalton's Law Lab w responder quiz ● Students will be able to decide whether to use PV = nRT or combined. ● Students will be able to use STP in calculations DO NOW: 1. Ch 14.2, p PP's (be able to show given & find) HOMEWORK: 1. Ch 14.2, p PP's 22 & 23, p PP's (5 pts) Std 4 =========================================================== STAMPS: ● Journal 3/9 & 3/12 Dalton's Law Lab- you may be asked to read yours 1. SN Ch 14.2, p (2 pts) Std 4 2. Ch PP's, p (3 pts) Std 4

For homework turned in Monday There were 2 assignments. The paper on top has score for both assignments: 5 pts for Boyle's Law worksheet 3 pts for Gay-Lussak problems from book Total = 8

PV = nRT (R = constant which = ) P 1 V 1 P 2 V 2 n 1 T 1 n 2 T 2 = Combined Gas Law - conditions change Ideal Gas Law - only one set of conditions

STP means P = 1 atm T = 0.00 deg C Important relative: If gas is at STP 22.4L = 1 mol

3/14/2012 Standards: 4 (Gases & Their Properties) CAHSEE If you are in Periods 2 or 6, you will need to look at the whiteboard for 3/13

3/15/2012 Standards: 4 (Gases & Their Properties) Objectives: ● Comlete Mini-Lab - Disc. direct & inv. relationships P,V,n & T ● Be able to complete Boyle's Law lab on computer at home. ● Students will be able to use STP in their calculations. ● Students will be able to complete Extra Credit gas sim (see Labs) (30 pts) DO NOW: 1.If 852 Torr, and 85 g HCl, and 45 °C, what will the volume of HCl gas be in the vessel? Show your calculations for each of the 3 conversions as well as using PV = nRT or Combined Gas Laws. HOMEWORK: 1. Ch 14.3, (5 pts) Std 4 ============================================================ STAMPS: ● Journal 3/14 1. Ch 14.2, p PP's 22 & 23, p PP's (5 pts) Std 4 HELP for DO NOW Pressure must be converted to atm., g HCl must be converted to moles, 45 °C must be converted to Kelvins, and the value of R (a constant) is always = Then V will be given in L.

Notebook total is now 182 possible

PV = nRT (R = constant which = ) P 1 V 1 P 2 V 2 n 1 T 1 n 2 T 2 = Combined Gas Law - conditions change Ideal Gas Law - only one set of conditions

STP means P = 1 atm T = 0.00 deg C Important relative: If gas is at STP 22.4L = 1 mol

For today's quiz questions, first form groups of 4, then one person goes to get a responder to give the answers for each question and explain why the answer is correct.

1Why are the the pressure calculations coming out the same for molecules of different sizes? A molar mass is part of PV = nRT B they aren't, mass of molecule matters C lighter molecules hit side of container more often than heavier molecules, resulting in their exerting the same amount of pressure on the inside of the container D pressure of all gases is constant and doesn't change

2If you have 1 mol ea of 5 different molecules, how much more pressure (P) will the 5 exert together than only one? A 2 times more P B 5 times more P C this cannot be determined with gas laws D 3 times more P

3Does the molecule mass affect the pressure it will exert on the inside of the vessel it is in? Yes No

4Using PV = nRT, calculate the pressure of 1 mol of CH in a vessel of 30L, at a temp. of 100 deg C. (R = ). Round to 3 sig. figs

5Given the conditions shown, which gas law will you need to use? (problems from text) A Combined Gas Law B Ideal Gas Law p , 33 p. 432

3/16/2012 Standards: 4 Objectives: ● Students will be able to complete Boyle's Law gas sim questions at home. ● Students will be able to use STP in their calculations. ● Students will understand how to use the extra credit on-line gas sim. and be able to ask questions about how to accomplish the assignment due 3/30 (2 wks from today) DO NOW: 1.If P = 705 Torr; V = 85 mL; T = 115 °C. Find moles of gas. 2. If the gas is methane CH 4, how many grams will that be? HOMEWORK: 1. Ch 14.2 PP's p (10 pts) Std 4 2. Do Boyles' Law lab at home using simulator on-line. Follow directions given on the sheet itself and instruction given in class today. NOTE - THIS ISN'T DUE UNTIL TUESDAY! (15 pts) Std 4 ========================================================== STAMPS: ● Journal 3/15 1. Ch 14.2, p (5 pts) Std 4 S TP – is code for P = 1 atm and T = 273 K Period 3 notebooks collected today Period 5 and 6 notebooks collected Monday

Notebook total is now 182 possible