Kinetic Molecular Theory and Real Gases ROOT MEAN SQUARED, EFFUSION, REAL GASES.

Slides:



Advertisements
Similar presentations
Any Gas….. 4 Uniformly fills any container 4 Mixes completely with any other gas 4 Exerts pressure on its surroundings.
Advertisements

A.P. Chemistry Chapter 5 Gases Part 2. Van der Waal’s Equation: (p ) Due to deviation from ideal behavior, corrections (adjustments) are made.
Kinetic Molecular Theory of Gases
Introduction to Gases & The Kinetic Molecular Theory (KMT) Note: The content in this presentation is not required in the IB course syllabus for topic 1.
5.7/5.1 Kinetic Molecular Theory of Gases
Blackbody radiation and Light: a wave or a particle?
Honors Chem Chapters 10, 11, and 12. Kinetic Molecular Theory (KMT) Molecules are constantly in motion and collide with one another and the wall of a.
Lecture 1710/12/05. 2 closed 1.0 L vessels contain 1 atm Br 2 (g) and 1 atm F 2 (g), respectively. When they are allowed to mix, they react to form BrF.
Ch Gases Properties: Gases are highly compressible and expand to occupy the full volume of their containers. Gases always form homogeneous mixtures.
1 Chapter 12 The Behavior of Gases. 2 Section 12.1 The Properties of Gases u OBJECTIVES: Describe the properties of gas particles.
Effusion and Real Gases. Announcements: Tutor Review Session from 5-7 tonight in DBH 1100 Added additional gas law questions to “sample exam” questions.
Pressure and Pressure Conversions
Physical Chemistry 1 CHEM 3310
The Gas Laws.
The Gas Laws u Describe HOW gases behave. u Can be predicted by the theory. u Amount of change can be calculated with mathematical equations.
Chapter 5 The Gas Laws. Pressure  Force per unit area.  Gas molecules fill container.  Molecules move around and hit sides.  Collisions are the force.
1 Chapter 12 The Behavior of Gases Milbank High School.
Gas Laws Advanced Problem Solving. Visit: Log in and select Chem 1A. When prompted, type the.
Gas Densities, Partial Pressures, and Kinetic-Molecular Theory Sections
STAAR Ladder to Success Rung 4. Boyle’s Law The pressure and volume of a gas are inversely related – at constant mass & temp P 1 V 1 = P 2 V 2.
1 Chapter 14 Gases Pioneer High School Ms. Julia V. Bermudez.
Gases
Gas Laws. The Gas Laws Describe HOW gases behave. Can be predicted by the The Kinetic Theory.
Chapter 14 The Behavior of Gases
1 How Do Gases Behave? The behavior of gases can be described by the kinetic molecular theory of ideal gases. Gases consist of submicroscopic particles.
First thing: Please be Ready with iclickers out, everything else put away. (Candy/Toothpicks can stay out)
The Gas Laws u Describe HOW gases behave. u Can be predicted by the theory. The Kinetic Theory u Amount of change can be calculated with mathematical.
Ideal Gases Obey the Laws! The effect of adding gas u When we blow up a balloon we are adding gas molecules. u Doubling the the number of gas particles.
Quinnipiac University
Ideal Gas Law.
Gases Courtesy of nearingzero.net.
Chapter 12 Gas Laws and Behavior of Gases. CA Standards 4c. Students know how to apply the gas laws to relations between the pressure, temperature, and.
Kinetic Molecular Theory. © 2009, Prentice-Hall, Inc. Kinetic-Molecular Theory This is a model that aids in our understanding of what happens to gas particles.
Molecules in Motion A.the kinetic theory all matter is composed of small particles (atoms, ions, molecules) these small particles are in constant motion.
The Property of Gases – Kinetic Molecular Theory And Pressure.
You can predict how pressure, volume, temperature, and number of gas particles are related to each other based on the molecular model of a gas.
Kinetic Molecular Theory KMT Chapter 10 Gas Laws.
 and  bonds. Visit: Log in and select Chem 1A. When prompted, type the word of the day: sigma.
 and  Bonds MO Theory. Visit: Site is down, so there is no word of the day Visit:
CHM 108 SUROVIEC SPRING 2014 Chapter 5 1. I. Pressure A. Molecular collisions Pressure = Force Area (force = mass x acceleration) 2.
Kinetic Molecular Theory and Real Gases ROOT MEAN SQUARED, EFFUSION, REAL GASES.
Kinetic Molecular Theory (KMT) 1.Gases consist of large numbers of molecules that are in continuous, random motion. 2.The volume of all of the gas molecules.
Ch. 10 Gases. Properties Expand to fill their container Highly compressible Molecules are far apart.
Objectives  The Kinetic Molecular Theory of Gases  Quantities That Describe a Gas  Factors that Affect Gas Pressure  The Gas Laws.
1 KINETIC THEORY OF GASES MADE OF ATOMS OR MOLECULES THAT ARE CONSTANTLY AND RANDOMLY MOVING IN STRAIGHT LINES COLLIDE WITH EACH OTHER AND CONTAINER WALLS.
Gases Unit 6. Kinetic Molecular Theory  Kinetic energy is the energy an object has due to its motion.  Faster object moves = higher kinetic energy 
Chapter 101 Gases. 2 Homework: 10.12, 10.28, 10.42, 10.48, 10.54, 10.66,
Gases: Chapter – Characteristics of Gases Physical properties of gases are all similar. Composed mainly of nonmetallic elements with simple formulas.
KINETIC MOLECULAR THEORY Physical Properties of Gases: Gases have mass Gases are easily compressed Gases completely fill their containers (expandability)
Preludes to the Ideal Gas Equation Pressure (P) inversely proportional with Volume (V) at constant Temperature Boyle’s law.
Properties  Gases take the shape and volume of their container  Weak intermolecular forces  Volume is dependent on temperature and pressure Increase.
Visit: Log in and select Chem 1A. When prompted, type the word of the day: learning Ensure when.
Gases. Ê A Gas is composed of particles ä usually molecules or atoms ä Considered to be hard spheres far enough apart that we can ignore their volume.
AP Chemistry CH 5 GASES REVIEW.  1 atm = mmHg = torr = kPa = x 10 3 Pa = standard pressure (sea level)  STP =
Resonance, bond strength and Length. Visit: Log in and select Chem 1A. When prompted, type the.
Questions Are gas particles attracting or repelling each other? Are gas particles traveling randomly or in an ordered manner? Are there small or great.
 The kinetic theory assumes the following concepts about gasses are true:  Gas particles do not attract or repel each other  Gas particles are much.
The Property of Gases – Kinetic Molecular Theory explains why gases behave as they do
Chapter 12 “The Behavior of Gases” Pre-AP Chemistry Charles Page High School Stephen L. Cotton.
Chapter 5 Gases. Reactions Involving Gases in reactions of gases, the amount of a gas is often given as a volume the ideal gas law allows us to convert.
Gas Laws - Chapter Kinetic-Molecular Theory of Matter Boyle’s Law Charles’s Law Gay-Lussack’s Law Avogadro’s Law Combined Gas Law Ideal Gas Law Dalton’s.
Gas Laws The Gas Laws Kinetic Theory Revisited 1. Particles are far apart and have negligible volume. 2. Move in rapid, random, straight-line.
Chapter 10 Gases: Their Properties and Behavior
Chapter 14 The Behavior of Gases.
Questions to Answer Are gas particles attracting or repelling each other? Are gas particles traveling randomly or in an ordered manner? Are there small.
Dalton’s Law of Partial Pressures
Chapter 5 Gases.
Kaylen Bunch Andrew Durham
Gases Chapter 10.
Presentation transcript:

Kinetic Molecular Theory and Real Gases ROOT MEAN SQUARED, EFFUSION, REAL GASES

Visit: Log in and select Chem 1A. When prompted, type the word of the day: kmt Ensure when asked if you will share your location you select “allow”. Visit: Sign in MasteringChemistry account name When prompted, type session ID: Please turn off all downloads. You can usually pause them by clicking on them and clicking pause. Facebook and youtube are officially banned during class time (this is not me micromanaging, it’s a legit internet issue as told to me by OIT). Remember back 5 rows of even side are no seating zones Visit: Word of the day: kmt LearningCatalytics: session ID:

ANNOUNCEMENTS I still don’t have midterm 3 back, it’ll be up as soon as I have them. Figure out grade using midterms and assume as long as you show up most classes and do most of the homework it’ll balance out. (you get to drop enough that generally it shifts the curve up for everyone) Please remember to do my evals, they’ll stop sending you annoying s. Remember to put things you like as well as things you don’t like so I don’t change things most people like due to the vocal few. Homework for chapter 11 are shorter assignments, there are just three of them because of how the chapter breaks up. Office Hours next week. Monday 10-11:30, and Monday 2-3, Tuesday 3-4. Exam is Wednesday 8-10 please show up on time and in seats! Extra credit is due day of the final exam, printed please. Remember back 5 rows of even side are no seating zones Visit: Word of the day: kmt LearningCatalytics: session ID:

SURVEY QUESTIONS Visit: Word of the day: kmt LearningCatalytics: session ID:

SURVEY QUESTIONS: TEMPERATURE ISSUES For the RMSspeed equation, do we always use 298K when we are not given a temperature value? You should always be given it or a way to calculate it. Otherwise ask. STP is 0 o C, aka 273 K If given two temp in o C and asked for final volume do we need to convert celsius to kelvin Yes, always always always always convert into Kelvin when dealing with temperatures in this unit. Low temp,= slower moving Either, less pressure, or less volume High temp= faster moving Either, higher pressure, or higher volume Why does temperature make volume bigger? Pressure changes if rigid container Volume changes if non rigid container/movable piston ect….. Visit: Word of the day: kmt LearningCatalytics: session ID:

QUIZ QUESTION 1 Which is true according to the kinetic molecular theory? Molecules are point masses Collisions are elastic Gas molecules are attracted to each other Gas molecules repel each other Gas molecules are neither attracted nor repulsed Gas molecules in a sample are all traveling at the same speed Visit: Word of the day: kmt LearningCatalytics: session ID:

KINETIC MOLECULAR THEORY OF GAS What is Kinetic energy? Energy of motion Kinetic theory of gases Assume molecules are point masses (possess mass but no volume) Constant random motion, collisions are completely elastic energy can be transferred, but total energy remains the same. Gas molecules are neither attracted or repulsed Visit: Word of the day: kmt LearningCatalytics: session ID:

KINETIC MOLECULAR THEORY: PRESSURE Pressure is created by collisions between molecules and the container. Visit: Word of the day: kmt LearningCatalytics: session ID:

DISCUSSION QUESTIONS: KINETIC MOLECULAR THEORY Do all your molecules hit the walls of their container with the same force? Justify your answer based on kinetic molecular theory. No: Not all molecules are traveling at the same speed, since force increases as velocity increases, a molecule traveling faster will hit with more force. Visit: Word of the day: kmt LearningCatalytics: session ID:

Which of the two lines represents the sample at a higher temperature? Higher temp= faster rms T 2 = faster rms= higher temperature Visit: Word of the day: kmt LearningCatalytics: session ID:

Which of the two lines represents with a higher molecular mass? M1M1 M2M2 Smaller mass = faster rms M 1 = slower rms= heavier Visit: Word of the day: kmt LearningCatalytics: session ID:

DISCUSSION QUESTIONS: KINETIC MOLECULAR THEORY How does the frequency and force (respectively) of the collisions of the molecules of a gas with the walls of the container change as the temperature of the gas is decreased? Justify based on kinetic model of gases. Decrease, Decrease The distribution of speeds is lowered as the temperature is lowered, so the molecules will hit the walls less often due to slower movement, and will also hit with less force due to slower movement. Visit: Word of the day: kmt LearningCatalytics: session ID:

DISCUSSION QUESTIONS KINETIC MOLECULAR THEORY If you increase the molecular mass, the rms ____________. Justify your answer A) IncreasesB) DecreasesC) stays the same Decreases The rms speed is as shown in the formula below. Therefore it is inversely related to molecular mass. The more mass a molecule has, the slower it will go. Visit: Word of the day: kmt LearningCatalytics: session ID:

Calculate the rms speed of an oxygen gas molecule, O 2, at 29.0 ∘ C. Visit: Word of the day: kmt LearningCatalytics: session ID:

Explain how each of the below laws follow from kinetic molecular theory. Boyle's law, (P&V): Charles's law(V&T)/Gay-Lussac’s(P, T), Avogadro's law, (n&V or P) and Dalton's law (partial pressures) P1V1=P2V2 If the pressure is decreased, the force on the walls must be decreased. This happens by decreasing the frequency of collisions by increasing the size of the container. P1/T1=P2/T2 If the temperature is increased the force on the walls will increase as well. This is from both increased number and increased speed of collision. This increases the pressure. V1/n1=V2/n2 If the number of moles is increased the number of collisions with the wall will increase, therefore increasing the volume. Pa+Pb+Pc…..=Ptotal and that PV=(na+nb+nc…)RT Because all the molecules will hit the wall with the same force (faster molecules are lighter at the same temperature), Visit: Word of the day: kmt LearningCatalytics: session ID: