• Class Number 2471
• Term Code 2930
• Class Info
• Unit Value 6 units
• Mode of Delivery In Person
• COURSE CONVENER
• Prof Edie Sevick
• LECTURER
• Prof Edie Sevick
• Class Dates
• Class Start Date 25/02/2019
• Class End Date 31/05/2019
• Census Date 31/03/2019
• Last Date to Enrol 04/03/2019
• TUTOR
• Mahyar Bokaeeyan
• HONG TAN
• Ruvindha Lecamwasam
• Samuel Cousens
SELT Survey Results

Thermal and Statistical Physics (PHYS2020)

Thermal physics deals with large numbers of particles, anything big enough to see with a conventional microscope. From understanding the greenhouse effect to the blackbody radiation left over from the Big Bang, no other physical theory is used more widely through out science.

This course begins with classical thermodynamics to introduce the fundamental concepts of temperature, energy, and entropy.  These concepts are then used to explore free energy, heat, and the fundamental behaviour of heat engines and refrigerators.  The physical and mathematical bases of statistical mechanics, in which the laws of statistics are used to make the connection between the quantum behaviour of 1 atom and the behaviour of bulk matter made up of 10^23 atoms, are then introduced.  This leads to the statistical physics concepts of temperature, entropy, Boltzmann and Gibbs factors, partition functions, and distribution functions.  These concepts are applied to both classical and quantum systems, including phase transformations, blackbody radiation, and Fermi gases.

## Learning Outcomes

Upon successful completion, students will have the knowledge and skills to:

On satisfying the requirements of this course, students will have the knowledge and skills to:

1. Identify and describe the statistical nature of concepts and laws in thermodynamics, in particular: entropy, temperature, chemical potential, Free energies, partition functions.
2. Use the statistical physics methods, such as Boltzmann distribution, Gibbs distribution, Fermi-Dirac and Bose-Einstein distributions to solve problems in some physical systems.
3. Apply the concepts and principles of black-body radiation to analyze radiation phenomena in thermodynamic systems.
4. Apply the concepts and laws of thermodynamics to solve problems in thermodynamic systems such as gases, heat engines and refrigerators etc.
5. Analyze phase equilibrium condition and identify types of phase transitions of physical systems.
6. Make connections between applications of general statistical theory in various branches of physics.
7. Design, set up, and carry out experiments; analyse data recognising and accounting for errors; and compare with theoretical predictions.

## Research-Led Teaching

• Thermodynamics And Statistical Physics
• Statistical Mechanics In Chemistry
• Physical Chemistry Of Materials
• Fluid Physics
• Biological Physics
• Polymers And Plastics
• Chemical Thermodynamics And Energetics

## Required Resources

• An Introduction to Thermal Physics" by Daniel Schroeder, Addison-Wesley, 422 p. (Beware that some paperback versions are missing >60 pages)
• A device (laptop, smartphone, iPad) that will allow you to access Wattle pages during our workshop and take quizzes. Laptop should have Mathematica (refer to the PHYS2020 Wattle page for download instructions).

## Staff Feedback

Students will be given feedback in the following forms in this course:

• Weekly quiz feedback (on Wattle, with partial to full solutions)
• Weekly homework feedback (on Wattle, personalised marking with solutions)
• Project Report (on Wattle, personalised marking)
• Mid-Term Exam (by appointment with Convenor)
• Second Year Laboratory convenor will provide feedback on laboratory reports.

Students will be able to track their assessment progress on the Wattle grade book.

## Student Feedback

ANU is committed to the demonstration of educational excellence and regularly seeks feedback from students. Students are encouraged to offer feedback directly to their Course Convener or through their College and Course representatives (if applicable). The feedback given in these surveys is anonymous and provides the Colleges, University Education Committee and Academic Board with opportunities to recognise excellent teaching, and opportunities for improvement. The Surveys and Evaluation website provides more information on student surveys at ANU and reports on the feedback provided on ANU courses.

## Other Information

Please note, that where there are multiple assessment tasks of the same type, e.g weekly quizzes, a date range is used in the Assessment Summary. The first date is the release date of the first task, the return date is the due date for the final task. Further information is provided in the assessment section of the class summary, and details are provided on the course wattle site.

## Class Schedule

Week/Session Summary of Activities Assessment
1 Temperature & heat transfer Quiz
2 Ideal & Real gases, Equipartition & the First Law Quiz
3 The First Law (continued), Enthalpy, Heat Capacities & Micro/Macrostates Quiz
4 Micro/Macrostates & Multiplicity of macrostates for Einstein Solids & Ideal Gas Quiz
5 Entropy Quiz
6 Carnot Cycle & Engines Quiz
7 Thermodynamic Identity, Maxwell's Relations Quiz, Mid-Term
8 Chemical Reactions, Phase Transformations & Fuel Cells Quiz
9 Boltzmann Statistics and the Partition Function Quiz, Project
10 Ideal gas and Quantum Statistics Quiz
11 Fermions: Degeerate Fermi gases Quiz
12 Bosons: Blackbody Radiation & Planck's Distribution Quiz

## Tutorial Registration

Please see the Physics Second Year Labs WATTLE site for information about the labs, assessment and sign-up.

## Assessment Summary

Assessment task Value Due Date Return of assessment Learning Outcomes
Weekly Wattle Quizzes 5 % 25/02/2019 31/05/2019 1,2,3,4,5,6
Project 20 % 06/05/2019 31/05/2019 1,2,3,4,5,6
Weekly Homework Assignments 15 % 25/02/2019 31/05/2019 1,2,3,4,5,6
Laboratory 20 % 25/02/2019 31/05/2019 2,3,4,7
Mid-term exam 20 % 22/04/2019 29/04/2019 1,2,3,4,5,6
Final exam 20 % 06/06/2019 04/07/2019 1,2,3,4,5,6

* If the Due Date and Return of Assessment date are blank, see the Assessment Tab for specific Assessment Task details

## Policies

ANU has educational policies, procedures and guidelines, which are designed to ensure that staff and students are aware of the University’s academic standards, and implement them. Students are expected to have read the Academic Misconduct Rule before the commencement of their course. Other key policies and guidelines include:

## Assessment Requirements

The ANU is using Turnitin to enhance student citation and referencing techniques, and to assess assignment submissions as a component of the University's approach to managing Academic Integrity. For additional information regarding Turnitin please visit the ANU Online website. Students may choose not to submit assessment items through Turnitin. In this instance you will be required to submit, alongside the assessment item itself, hard copies of all references included in the assessment item.

## Moderation of Assessment

Marks that are allocated during Semester are to be considered provisional until formalised by the College examiners meeting at the end of each Semester. If appropriate, some moderation of marks might be applied prior to final results being released.

## Participation

• Update your Profile on the Wattle page (Top Right Corner of the page), inserting a photograph of yourself. This is useful for us to learn your name and so that your picture appears with any forum post.
• You should sign up for one laboratory session (either on Wednesday, Thursday or Friday) if you are taking PHYS2020 or if you are taking PHYS2020 and PHYS2013.
• If you are enrolled in only one of PHYS2013 or PHYS2020, you must undertake four afternoons of lab and produce one formal report.
• ?If you are enrolled in both PHYS2013 and PHYS2020, you must undertake eight afternoons of lab and produce two formal reports. Your overall lab mark will be out of 80 and will contribute 20% to BOTH of the courses you are enrolled in.

## Examination(s)

A mid-term exam and a final exam will be scheduled. Please refer to the ANU examinations timetable or PHYS2020 Wattle page for examination times and location.

Value: 5 %
Due Date: 25/02/2019
Return of Assessment: 31/05/2019
Learning Outcomes: 1,2,3,4,5,6

Weekly Wattle Quizzes

Note the conditions of each question/problem in the quiz:

• Multiple attempts are usually allowed with varying degrees of penalty for wrong attempts.
• Because inputs are chosen randomly for each student's quiz, your classmates correct solution is not necessarily your correct solution.
• Students may be randomly allocated different sets of quiz questions.
• You must open and attempt the quiz at least once before the workshop: it will close at the advertised time.
• Refer to the PHYS2020 Wattle page for weekly submission dates

There are 24 quizzes administered over the semester:

• 12 weekly quizzes are administered with each week's lesson plan. These quizzes contain 6-10 questions/problems with multiple attempts allowed, and are open for 10 days. To receive a mark on this quiz, at least one attempt must be made before the workshop. At the advertised closing date, the student will receive immediate, automated feedback on all saved responses, as well as solutions.

• 12 short (single attempt) quizzes are administered within the workshop, requiring the student's attendance. These short quizzes are marked immediately upon submission.

Value: 20 %
Due Date: 06/05/2019
Return of Assessment: 31/05/2019
Learning Outcomes: 1,2,3,4,5,6

Project

You will need to choose 1 of two projects to complete: (refer to the PHYS2020 Wattle site for project web links)

• Schroeder's Molecular Dynamics: Your individual Schroeder project requires that you implement an MD simulation to explore concepts in thermal physics. Your report, 5-8 pages in length should describe (1) the MD simulation, (2) your system & the concept you are demonstrating, as well as (3) quantitative results that make use of the data.
• MakerSpace Project: This MakerSpace project involves the construction of an operational Stirling Engine, made of 3-D printed movable components, glass pistons (syringes) and a fixed stage which you are to design. All of the necessary components needed to complete the engine are provided; however, you are free to chose some variations to the design as long as the materials can be provisioned.
• Your individual MakerSpace project requires that (1) you design/build the engine, (2) analyse its operation, and (3) provide a video report of your work and the engine of 4-7 minutes in duration (different people have different delivery speeds!). Your video will be uploaded on the course Wattle site. You are not required to submit your engine - instead, we hope that you keep it (and possibly use it to power another device of your own design).

Refer to the PHYS2020 Wattle page for submission dates, anticipated to be Week 9

Value: 15 %
Due Date: 25/02/2019
Return of Assessment: 31/05/2019
Learning Outcomes: 1,2,3,4,5,6

Weekly Homework Assignments

Homework assignments are administered with each week's lesson plan. You are given 10 days to complete each of the 12 assignments. a

• Refer to the PHYS2020 Wattle page for weekly submission dates as well as upload information

The date range for these tasks indicates the release date for the first assignment, and the return date for the last assignment. There are 12 assignments due over the semester. It is intended that the marked assignments will be returned within 7 days after submission. Further details can be found on the Course Wattle site.

Value: 20 %
Due Date: 25/02/2019
Return of Assessment: 31/05/2019
Learning Outcomes: 2,3,4,7

Laboratory

• If you are enrolled in only one of PHYS2013 or PHYS2020, you must undertake four afternoons of lab and produce one formal report. Your overall lab mark will be out of 40 and will contribute 20% to the course you are enrolled in.
• If you are enrolled in both PHYS2013 and PHYS2020, you must undertake eight afternoons of lab and produce two formal reports. Your overall lab mark will be out of 80 and will contribute 20% to BOTH of the courses you are enrolled in.

Value: 20 %
Due Date: 22/04/2019
Return of Assessment: 29/04/2019
Learning Outcomes: 1,2,3,4,5,6

Mid-term exam

The mid-term exam covers the first 6 weeks of the course. Allowable materials for the 3 hour exam are

• calculator, pen/pencil

• A4 sheet of handwritten notes, double-sided

Please refer to the ANU examinations timetable or PHYS2020 Wattle page for examination times and location.

Value: 20 %
Due Date: 06/06/2019
Return of Assessment: 04/07/2019
Learning Outcomes: 1,2,3,4,5,6

Final exam

The final exam covers the last 6 weeks of the course. Allowable materials for the 3 hour exam are

• calculator, pen/pencil

• A4 sheet of handwritten notes, double-sided

Please refer to the ANU examinations timetable or PHYS2020 Wattle page for examination times and location.

## Online Submission

You will be required to electronically sign a declaration as part of the submission of your assignment. Please keep a copy of the assignment for your records. Unless an exemption has been approved by the Associate Dean (Education) as submission must be through Turnitin.

## Hardcopy Submission

For some forms of assessment (hand written assignments, art works, laboratory notes, etc.) hard copy submission is appropriate when approved by the Associate Dean (Education). Hard copy submissions must utilise the Assignment Cover Sheet. Please keep a copy of tasks completed for your records.

## Late Submission

Late submission of the project report without an extension is penalised at the rate of 5% of the possible marks available per working day or part thereof. Late submission of project report is not accepted after 10 working days after the due date. Late submission is not accepted fro quiz assessments.

## Referencing Requirements

Accepted academic practice for referencing sources that you use in presentations can be found via the links on the Wattle site, under the file named “ANU and College Policies, Program Information, Student Support Services and Assessment”. Alternatively, you can seek help through the Students Learning Development website.

## Returning Assignments

All feedback, including personalised marking of the project report and homework, is returned to the student through the Course Wattle grade book.

## Extensions and Penalties

Extensions and late submission of assessment pieces are covered by the Student Assessment (Coursework) Policy and Procedure. The Course Convener may grant extensions for assessment pieces that are not examinations or take-home examinations. If you need an extension, you must request an extension in writing on or before the due date. If you have documented and appropriate medical evidence that demonstrates you were not able to request an extension on or before the due date, you may be able to request it after the due date.

## Resubmission of Assignments

No resubmission are permitted.

## Privacy Notice

The ANU has made a number of third party, online, databases available for students to use. Use of each online database is conditional on student end users first agreeing to the database licensor’s terms of service and/or privacy policy. Students should read these carefully. In some cases student end users will be required to register an account with the database licensor and submit personal information, including their: first name; last name; ANU email address; and other information.
If any student chooses not to agree to the database licensor’s terms of service or privacy policy, the student will not be able to access and use the database. In these circumstances students should contact their lecturer to enquire about alternative arrangements that are available.

Academic Quality Assurance Committee monitors the performance of students, including attrition, further study and employment rates and grade distribution, and College reports on quality assurance processes for assessment activities, including alignment with national and international disciplinary and interdisciplinary standards, as well as qualification type learning outcomes.

Since first semester 1994, ANU uses a grading scale for all courses. This grading scale is used by all academic areas of the University.

## Support for students

The University offers students support through several different services. You may contact the services listed below directly or seek advice from your Course Convener, Student Administrators, or your College and Course representatives (if applicable).

## Convener

 Prof Edie Sevick 50508 edie.sevick@anu.edu.au

### Research Interests

Soft Matter, Stat Mech

### Prof Edie Sevick

 Monday 09:00 17:00 Tuesday 09:00 17:00 Wednesday 09:00 17:00 Thursday 09:00 17:00 Friday 09:00 17:00

## Instructor

 Prof Edie Sevick 50508 Edie.Sevick@anu.edu.au

### Prof Edie Sevick

 Monday 09:00 17:00 Tuesday 09:00 17:00 Wednesday 09:00 17:00 Thursday 09:00 17:00 Friday 09:00 17:00

## Tutor

 Mahyar Bokaeeyan 52943 mahyar.bokaeeyan@anu.edu.au

## Tutor

 HONG TAN 52747 pec.rspe@anu.edu.au

## Tutor

 Ruvindha Lecamwasam 52747 ruvi.lecamwasam@anu.edu.au

## Tutor

 Samuel Cousens 52747 u5528649@anu.edu.au