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Location SAB 436 Time TR 930-1050 (Fall Term)Midterm 9:30-10:50am Thursday, October 30 (in class) (worth 25% final grade) The midterm will have 4 questions on material up p. 38 of lecture notes equations of state, heat capacities and latent heats first law of thermodynamics: internal energy, heat and work adiabatic compression sound speed, heat diffusion, potential temperature, scale heights, adiabatic lapse rates heat engines and refrigerators thermodynamic definition of entropy: dS = (delta Q)/T AIDS: 1 double-sided "cheat sheet" on 8.5x11in. paper The back page of the exam will include a formula sheet can be viewed here before the exam. No calculators allowed You can now see the midterm questions and solutions. Exam 9:00-noon, Monday, December 15 in CCIS 1-160 (worth 50% final grade) Deferred exam Saturday, January 24, 2015, 9am-noon in CCIS L1-029 The exam will have six questions based on the material covered in the entire course including questions appearing in Assignments 1-5. Provided tools Attached to the back of the exam will be two pages listing handy constants and formulae. Aids you can bring to the exam Calculator Two 8 1/2 X 11 ``cheat sheets'' (e.g. you may reuse the cheat sheet you made for the midterm and make a second cheat sheet with formulae from the second half of the course). On these you may write any definitions, formulae or constants you like on both sides of the pages. For practise, you may go through the questions on a previous exam and compare your answers with the solutions. (Note: ignore question 5 of this exam, which involves the partition function - a concept not taught in PHYS310 this year.)Assignments There will be 5 assignments, each worth 5% of the final grade. (total of assignments worth 25% final grade). Assignments should be handed in to the box marked PHYS310 on the wall opposite the Physics Lab in CCIS L2-045. Late assignments are not accepted. They must be in the box before the time and date indicated on the assignment (typically Thursdays at 4pm). Assignment questions and their solutions will appear below as the course progresses. Assignments should be handed in before the date and time indicated to the box marked PHYS310 opposite CCIS L2-041. Note, because solutions will be posted right after the deadline, late assignments will not be accepted. Assignment 1 is due Thursday, September 25 before 4pm. Here are the solutions. Assignment 2 is due Thursday, October 9 before 4pm. Here are the solutions. Assignment 3 is due Thursday, October 23 before 4pm. Here are the solutions. Assignment 4 is due Thursday, November 13 before 4pm. Here are the solutions. Assignment 5 is due Tuesday, December 2 before 4pm. Here are the solutions. To do question 1 on assignment 5, you can use the table of definite integrals of the probability distribution of speeds. Syllabus Much of the information here is summarized in the syllabus.Extra Help Office hours will be set by appointment. To make an appointment, send an email request to bruce.sutherland-AT-ualberta.ca (replace -AT- with @ in address) with suggested meeting times during the next working day. Alternately, I will be available to answer questions during breaks in class or (most days) immediately after lectures.Course Outline Temperature: heat, work, and the first law of thermodynamics; entropy and the second law, enthalpy, Helmholtz and Gibbs free energy; thermodynamic equilibrium criteria; Maxwell's relations, phase transitions; elementary kinetic theory of gasesTextbook Classical and Statistical Thermodynamics, Ashley H. Carter, Prentice Hall (2001)Lecture Notes The course will be taught from the lecture notes that parallel the textbook, but also includes some supplemental material. The notes will be posted below as the term progresses. Lecture Notes Chapter 1: Definitions and Units Chapter 2: Equations of State Chapter 3: The First Law of Thermodynamics Chapter 4: Applications of the First Law (general) Chapter 5: Applications of the First Law (specific) Chapter 6: The Second Law of Thermodynamics Chapter 7: Applications of the Second Law Chapter 8: Applications of Gibbs Free Energy Chapter 9: The Chemical Potential Chapter 10: Kinetic Theory of Gases Chapter 11: Statistical Thermodynamics Course review (Ignore stuff about partition functions in this review ... the stuff with capital Z functions.) Overheads and Supplementary Handouts The equation of state of seawater A "skew T - ln P" chart Prerequisites and co-requisites Prerequisite: PHYS 126 or 146 or EN PH 131. Pre- or Co-requisite: MATH 209 or 215 or 317 or equivalent. Credit will be given for only one of PHYS 211 or 310.
Classical And Statistical Thermodynamics By Ashley H Carter Solution Pdf
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