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112-2 開課

  • 流水號

    25025

  • 課號

    ME5047

  • 課程識別碼

    522 U6230

  • 無分班

  • 3 學分

  • 選修

    機械工程學系 / 奈米工程與科學碩士學位學程 / 奈米工程與科學博士學位學程 / 機械工程學研究所

      選修

    • 機械工程學系

    • 奈米工程與科學碩士學位學程

    • 奈米工程與科學博士學位學程

    • 機械工程學研究所

  • 呂明璋
  • 二 7, 8, 9

  • 工綜205

  • 2 類

  • 修課總人數 40 人

    本校 40 人

  • 無領域專長

  • 英文授課
  • NTU COOL
  • 核心能力與課程規劃關聯圖
  • 備註

    本課程以英語授課。

  • 本校選課狀況

    已選上
    0/40
    外系已選上
    0/0
    剩餘名額
    0
    已登記
    0
  • 課程概述
    This course is taught in English. It focuses on the mechanisms of energy transport of micro/nanoscale systems, particularly thermal energy transport. The concepts of statistical physics, quantum mechanics, solid-state physics, kinetic theory, Boltzmann transport equation, and energy transport by waves will be introduced.
  • 課程目標
    The students will (1) gain an understanding of the fundamentals of kinetic theory, statistical thermodynamics, solid-state physics, and quantum mechanics; (2) learn the mechanisms of energy transport at the micro/nanoscale; (3) acquire the skills for the modeling of the transport properties of the micro/nanoscale systems, such as thermal conductivity and resistivity.
  • 課程要求
    Thermodynamics, Heat Transfer, Fluid Mechanics
  • 預期每週課前或/與課後學習時數
  • Office Hour
    星期一15:00 - 17:00
    TA: Ruay-Hong-Wu 吳睿紘 TA Office hours: 3-5 pm on Monday Location: Room 523 in the College of Engineering building Email: soyuuu8485@gmail.com Phone: 61789
  • 指定閱讀
    Nanoscale Energy Transport and Conversion, Gang Chen, 2005
  • 參考書目
    1. Chang-Lin Tien, Arunava Majumdar, Frank M. Gerner, Microscale Energy Transport, 1997 2. Van P. Carey, Statistical Thermodynamics and Microscale Thermophysics, 1999 3. Charles Kittel, Introduction to Solid State Physics, 2005 4. David J. Griffiths, Introduction to Quantum Mechanics, 2nd Edition, 2005 5. Zhuomin M. Zhang, Nano/Microscale Heat Transfer, 2008
  • 評量方式
    30%

    Homework

    The late homework submitted within one day after the due date will be 20% deducted from the original score. The homework submitted beyond one day after the due date will not be accepted.

    35%

    Midterm exam

    35%

    Final project

    The final project is a two-student team project. The grade of the final project will be judged based on the content, presentation, and the written report.

    1. 本校尚無訂定 A+ 比例上限。
    2. 本校採用等第制評定成績,學生成績評量辦法中的百分制分數區間與單科成績對照表僅供參考,授課教師可依等第定義調整分數區間。詳見 學習評量專區
  • 針對學生困難提供學生調整方式
    調整方式說明
    A2

    以錄影輔助

    Assisted by video

  • 補課資訊
  • 課程進度
    第 1 週Introduction: Length scale, kinetic theory, mean free path, etc.
    第 2 週Statistical Thermodynamics
    第 3 週Statistical Thermodynamics
    第 4 週Quantum Mechanics
    第 5 週Quantum Mechanics
    第 6 週Quantum Mechanics
    第 7 週Solid State Physics
    第 8 週Midterm exam
    第 9 週Solid State Physics
    第 10 週Solid State Physics
    第 11 週Boltzmann Transport Equations
    第 12 週Boltzmann Transport Equations
    第 13 週Boltzmann Transport Equations
    第 14 週Energy Transport by Waves
    第 15 週Interface resistance
    第 16 週Final project presentation