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UT CH 301 - Unit4Day1-Crawford

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Unit4Day1 Crawford Monday November 04 2013 5 55 PM Vanden Bout LaBrake Crawford CH301 THERMODYNAMICS HEAT AND WORK UNIT 4 Day 1 CH301 Vanden Bout LaBrake Fall 2013 Important Information LM26 LM27 DUE T 9AM LM27 contains a link to Unit 4 worksheets You should complete the worksheets associated with properties and change and the first law Exam Grades should be posted by the end of Friday CH301 Vanden Bout LaBrake Spring 2013 Unit4Day1 Crawfor Page 1 What are we going to learn today Chemical and Physical changes are accompanied by changes in energy Energy moves in the form of HEAT q and WORK w Get a feel for heat and work Get a feel for energy units CH301 Vanden Bout LaBrake Fall 2013 Energy EVERY change physical or chemical is accompanied by a change in energy The First Law of Thermodynamics All energy is conserved it can not be created or destroyed It is simply transferred from one form to another CH301 Vanden Bout LaBrake Fall 2013 Unit4Day1 Crawfor Page 2 POLL iCLICKER QUESTION 1 When I think of types of energy I think a KE and PE are the same as heat work b PE and KE are the same as heat work c PE and KE are the only two forms of energy d Heat and work are the only two forms of energy KE Kinetic Energy PE Potential Energy CH301 Vanden Bout LaBrake Fall 2013 Energy Definitions What is Energy Potential Energy PE energy due to position or composition Kinetic Energy KE energy of the motion of an object or particle Units J CH301 Vanden Bout LaBrake Fall 2013 Energy Definitions How does Energy move Heat q transfer of energy from a hotter body to a colder body NOTE This is not temperature Unit4Day1 Crawfor Page 3 How does Energy move Heat q transfer of energy from a hotter body to a colder body NOTE This is not temperature Work w transfer of energy via applied force over distance Units J CH301 Vanden Bout LaBrake Fall 2013 Demonstration Drop a ball to the floor Where did the Energy go Please describe the Energy of the Ball Unfortunately a chemical change is a little more difficult to visualize CH301 Vanden Bout LaBrake Fall 2013 Unit4Day1 Crawfor Page 4 System and State A system is the part of the universe on which we want to focus our attention The surroundings are everything else The universe is the system and the surroundings Universe system surroundings We also describe chemical changes with beginning and end states A change in a chemical reaction is described as State Stateend Statebeginning CH301 Vanden Bout LaBrake Fall 2013 Demonstrations Physical Change doing work Physical Change absorbing heat Chemical Change releasing heat CH301 Vanden Bout LaBrake Fall 2013 Energy Changes Burning Fossil Fuels Power Plant Automobile Unit4Day1 Crawfor Page 5 Energy Changes Burning Fossil Fuels Power Plant Automobile CH301 Vanden Bout LaBrake Fall 2013 Thermodynamics Chemists care about understanding and quantifying the amount of energy that moves into or out of a system upon a change Energy moves in the form of heat q and work w CH301 Vanden Bout LaBrake Fall 2013 Unit4Day1 Crawfor Page 6 Gummy Bear Demonstration Kilocalorie Calorie nutritional unit calorie the amount of energy it takes to raise the temperature of 1 gram of water 1 degree C 1 cal 4 184 J CH301 Vanden Bout LaBrake Fall 2013 Heat q Heat is energy transferred as a result of temperature difference Temperature is a property that reflects the random motions of the particles in a particular substance q is the symbol used to indicate energy changed by receiving or losing heat CH301 Vanden Bout LaBrake Fall 2013 Unit4Day1 Crawfor Page 7 Heat q Sign Notation of q when system receives heat from surroundings when system gives heat to the surroundings System Surr to Sys q Sys to Surr q CH301 Vanden Bout LaBrake Fall 2013 Work w Work is transfer of energy via applied force over distance w Force x distance Chemists are mostly concerned with PV work P pressure and V volume w P V Expansion work is an expansion against an external force w Pex V Can you think of an example of PV work CH301 Vanden Bout LaBrake Fall 2013 Unit4Day1 Crawfor Page 8 Work w Sign Notation of w work done ON the system BY the surroundings work done BY the system ON the surroundings System BY surr ON sys w BY sys ON surr w CH301 Vanden Bout LaBrake Fall 2013 POLL iCLICKER QUESTION 2 Today you saw a demonstration in which a lid popped off a container that contained a piece of CO2 s In this situation a Heat was transferred into the system Work was done by the system b Heat was transferred out of the system Work was done by the system c Heat was transferred into the system Work was done on the system d Heat was transferred out of the system Work was done on the system e Heat was not transferred only Work was done by the system CH301 Vanden Bout LaBrake Fall 2013 Unit4Day1 Crawfor Page 9 POLL iCLICKER QUESTION 3 Today you saw a demonstration in which a lid popped off a container that contained a piece of CO2 s In this situation a b c d q w q w q w q w CH301 Vanden Bout LaBrake Fall 2013 POLL iCLICKER QUESTION 4 The gases in the four cylinders of an automobile engine expand from 0 22 L to 2 2 L during one ignition cycle Assuming that the gear train maintains a steady pressure of 9 60 atm on the gases how much work can the engine do in one cycle 1 L atm 101 325 J A B C D 19 J 19 J 1925 J 1925 J CH301 Vanden Bout LaBrake Fall 2013 Unit4Day1 Crawfor Page 10 Summary Universe Heat released by system Work done by system q 0 w 0 SYSTEM q 0 w 0 Heat absorbed by system Work done on system Surroundings CH301 Vanden Bout LaBrake Fall 2013 Thermodynamics First Law of Thermodynamics Energy can not be created or destroyed Law of Conservation of Energy Universe System Surroundings Internal Energy U or E is the sum of all the energy in a system that is all the KE and PE in the system at a particular state U q w CH301 Vanden Bout LaBrake Fall 2013 POLL iCLICKER QUESTION 5 A system absorbs 72 J of heat while 35 J of work is done on it Calculate U A B C D 107 J 107 J 37 J 37 J Unit4Day1 Crawfor Page 11 work is done on it Calculate U A B C D E 107 J 107 J 37 J 37 J 0J CH301 Vanden Bout LaBrake Fall 2013 POLL iCLICKER QUESTION 6 A system was heated by using 600 J of heat yet it was found that the internal energy decreased by 150 J Calculate w A B C D 450 J 450 J 750 J 750 J CH301 Vanden Bout LaBrake Fall 2013 Unit4Day1 Crawfor Page 12 POLL iCLICKER QUESTION 7 Was work done on …


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UT CH 301 - Unit4Day1-Crawford

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