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UT CH 301 - Unit1Day4-LaBrake

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Unit1Day4 LaBrake Monday September 09 2013 5 09 PM Vanden Bout LaBrake Crawford CH301 Kinetic Theory of Gases How fast do gases move Day 4 CH302 Vanden Bout LaBrake Fall 2012 Important Information LM 08 09 DUE Th 9AM HW2 LM06 07 WERE DUE THIS MORNING 9AM CH302 Vanden Bout LaBrake Spring 2012 Unit1Day4 LaBrake Page 1 QUIZ CLICKER QUESTION 1 points for CORRECT answer Given the density of a gas one can use the ideal gas law to determine the molar mass MM of the gas using the following equation A PV nRT B P MM nRT C P MM nRT density D P MM RT density E RT P MM m V CH301 Vanden Bout LaBrake Fall 2013 QUIZ CLICKER QUESTION 2 points for CORRECT answer The numerical value of the MOLAR VOLUME of a gas is A The amount of space occupied by one mole of a gas at a given T and P B The number of moles of a gas occupying 1 liter of gas at a given T and P C The number of moles of a gas occupying any amount of liters of a gas at any T or P CH301 Vanden Bout LaBrake Fall 2013 POLL CLICKER QUESTION 3 After reading through the question on an in class learning activity I typically A Wait for the answer to be given then write down the correct answer B Start by thinking about the chemistry principles that apply then begin working on a solution C Begin by looking through my notes for the right formula that applies then plugging in the numbers to get an answer D Google the topic to find a similar problem then use that as a guide for solving this problem CH 301 Vanden Bout LaBrake Fall 2012 Unit1Day4 LaBrake Page 2 CH 301 Vanden Bout LaBrake Fall 2013 What are we going to learn today Understand the Kinetic Molecular Theory Explain the relationship between T and KE Explain how mass and temperature affect the velocity of gas particles Recognize that in a sample of gas particles have a distribution of velocities Explain the tenets of Kinetic Molecular theory and how they lead to the ideal gas law Apply differences in gas velocity to applications such as diffusion and effusion CH302 Vanden Bout LaBrake Fall 2012 POLL CLICKER QUESTION 3 Think About Gases Microscopically What affects the average kinetic energy of a gas A Temperature B Pressure C Volume D Temperature and Pressure E Volume and Pressure http ch301 cm utexas edu simulations gas laws GasLawSimulator swf CH302 Vanden Bout LaBrake Fall 2012 POLL CLICKER QUESTION 4 In a mixture of two different gases particles Unit1Day4 LaBrake Page 3 POLL CLICKER QUESTION 4 In a mixture of two different gases particles with different masses will have A B C D The same KE and the same rms velocities The same KE but different rms velocities Different KE but the same rms velocities Different KE and different rms velocities http ch301 cm utexas edu simulations gas laws GasLawSimulator swf CH302 Vanden Bout LaBrake Fall 2012 DEMONSTRATION TWO VOLUNTEERS WILL SPRITZ CH302 Vanden Bout LaBrake Fall 2012 POLL CLICKER QUESTION 5 What can we say about the velocities of the N2 gas molecules in this room A All the molecules are moving with the same absolute velocity in the same direction B All the molecules are moving with the same absolute velocity in random directions C The molecules are moving at a distribution of speeds all in the same direction D The molecules are moving at a distribution of speeds in random directions CH302 Vanden Bout LaBrake Fall 2012 Unit1Day4 LaBrake Page 4 DEMONSTRATION HCl in one end of the tube NH3 in the other end of the tube CH302 Vanden Bout LaBrake Fall 2012 Distribution of Velocities The particles have a distribution of velocities Set the T Pick molecules all going in the same direction Pick molecules all going a particular velocity CH302 Vanden Bout LaBrake Fall 2012 Distribution of Velocities What does the distribution look like for different molecules at the same temperature CH302 Vanden Bout LaBrake Fall 2012 Unit1Day4 LaBrake Page 5 POLL CLICKER QUESTION 6 What does the distribution look like for the same molecule at different temperatures A B C CH302 Vanden Bout LaBrake Fall 2012 Distribution of Velocities What does the distribution look like for the same molecule at different temperatures CH302 Vanden Bout LaBrake Fall 2012 Remember the Simulator http ch301 cm utexas edu simulations gas laws GasLawSimulator swf Temperature changes average K E K E is proportional to Temperature Proportionality constant is the Gas Constant R CH302 Vanden Bout LaBrake Fall 2012 Unit1Day4 LaBrake Page 6 What is Kinetic Energy K E energy is related to mass and velocity CH302 Vanden Bout LaBrake Fall 2012 What is Kinetic Energy K E energy is related to mass and velocity CH302 Vanden Bout LaBrake Fall 2012 Who cares about velocity squared We think in velocity units CH302 Vanden Bout LaBrake Fall 2012 Who cares about velocity squared Unit1Day4 LaBrake Page 7 CH302 Vanden Bout LaBrake Fall 2012 Who cares about velocity squared We think in velocity units root mean square square root of the average of the square CH302 Vanden Bout LaBrake Fall 2012 POLL CLICKER QUESTION 7 Rank the following from fastest to slowest in terms of rms velocity A B C D H2 at 300 K H2 at 600 K O2 at 300 K O2 at 600 K Use the alphanumeric response to enter the four letters in the correct order CH302 Vanden Bout LaBrake Fall 2012 POLL CLICKER QUESTION 8 Check on demo Let s think about our demo What is the ratio of the speeds of the two molecules in our demo NH3 HCl Numerical Question Give an answer to one decimal place CH302 Vanden Bout LaBrake Fall 2012 Unit1Day4 LaBrake Page 8 Kinetic Molecular Theory Now we know the particles are moving at distribution of velocities And we know what the velocities are Therefore we should be able to figure out how often they hit the walls of their container and how hard they hit to figure out what the pressure is CH302 Vanden Bout LaBrake Fall 2012 Kinetic Molecular Theory The particles are so small compared with the distance between them that the volume of the individual particles can be assumed to be negligible zero The particles are in constant motion The collisions of the particles with the walls of the container are the cause of the pressure exerted by the gas The particles are assumed to exert no forces on each other they are assumed to neither attract nor repel each other The average kinetic energy of a collection of gas particles is assumed to be directly proportional to the Kelvin temperature of the gas CH302 Vanden Bout LaBrake Fall 2012 And then there was a lot of math If you are interested it is in the chemistry wiki e book http en wikibooks org


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UT CH 301 - Unit1Day4-LaBrake

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