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열 및 통계 물리학1진행중 강좌
2013학년도 2학기 강의공개 과목
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  • 영어
  • 26주
  • 1주/0시간
  • 수료증 미발급

강의 유의사항

본 강의는 공개강좌에 해당하는 과목으로 강의에 대한 질의응답을 받지 않고 있습니다.

시스템 오류에 대한 문의는 운영지원 담당자(02-2164-4689,에게 문의하시기 바랍니다.


Thermodynamics is the study of temperature and heat, and their relationship with mechanical quantities like pressure and work. The study of thermodynamics played an important part in the industrial revolution, where the theory was used to understand and improve the efficiency of heat engines. Thermodynamics was given a solid theoretical basis by the development of statistical mechanics, which defines the temperature of a system in terms of the statistics of its microstates(a microstate of a system is a complete description of the state of all of its constituent particles.) Thermodynamics and statistical mechanics have applications in nearly all of modern physics, including solid state and condensed matter physics, astronomy and cosmology. This class will cover the foundations of thermodynamics and statistical mechanics in detail, and look at several important applications. 


The aim of this class is to teach students the basics of thermodynamics and statistical mechanics, and to make them confident in applying these theories to various physical systems.
 The course will be divided into three parts. The first part of the course will describe the most important results of thermodynamics, the next part will introduce the background knowledge of statistics and quantum mechanics needed for statistical mechanics, and the final part will introduce the theory of statistical mechanics and relate it to the thermodynamical results described in the first part. No previous experience of these subjects is assumed, but some basic knowledge of mechanics and calculus is necessary. 

강좌 목차

주차 차시
1 2013-2_열 및 통계 물리학1.01 Course introduction
2 2013-2_열 및 통계 물리학1.02 Review of Thermodynamics/ Measuring temperature
3 2013-2_열 및 통계 물리학1.03 Heat work
4 2013-2_열 및 통계 물리학1.04 The first law of thermodynamics
5 2013-2_열 및 통계 물리학1.05 Heat engines and heat pumps
6 2013-2_열 및 통계 물리학1.06 Heat engines and heat pumps & The equipartition theorem
7 2013-2_열 및 통계 물리학1.07 QUIZ review
8 2013-2_열 및 통계 물리학1.08 Heat transfer mechanisms
9 2013-2_열 및 통계 물리학1.09 Background knowledge in statistics and quantum mechanics
10 2013-2_열 및 통계 물리학1.10 Combinatorics
11 2013-2_열 및 통계 물리학1.11 Combinatorics/ Vapour pressure/ Drinking bird
12 2013-2_열 및 통계 물리학1.12 QUIZ review
13 2013-2_열 및 통계 물리학1.13 Exam review
14 2013-2_열 및 통계 물리학1.14 Results from quantum machanism
15 2013-2_열 및 통계 물리학1.15 Introduction to statistical mechanism
16 2013-2_열 및 통계 물리학1.16 Introduction to statistical mechanism
17 2013-2_열 및 통계 물리학1.17 Statistical physics of the paramagnet
18 2013-2_열 및 통계 물리학1.18 Concept of the thermodynamic limit
19 2013-2_열 및 통계 물리학1.19 The canonical ensemble
20 2013-2_열 및 통계 물리학1.20 The canonical ensemble
21 2013-2_열 및 통계 물리학1.21 The ideal monatomic gas
22 2013-2_열 및 통계 물리학1.22 The ideal monatomic gas
23 2013-2_열 및 통계 물리학1.23 Rotational and vibrational made of an ideal diatomic gas
24 2013-2_열 및 통계 물리학1.24 Rotational and vibrational made of an ideal diatomic gas
25 2013-2_열 및 통계 물리학1.25 Rotational and vibrational made of an ideal diatomic gas
26 2013-2_열 및 통계 물리학1.26 REVIEW