化學(一)-2014學年度--李大偉 / 交大

播放清單 (請按影片右上角選取影片)

source: nctuocw    2015年3月23日
本課程是由交通大學應用化學系提供。
本課程將從原子模型及量子力學的觀點出發去探討探索化學變化的基本理論，包括微觀的元素或分子的特性與其原子或分子軌域的關連。接著從微觀的元素或分子的特性再加上熱力學定律，去解釋巨觀中物質的三態及熱平衡現象。本課程希望同學在學習後能墊定扎實的化學基礎。
課程資訊：http://ocw.nctu.edu.tw/course_detail....
授權條款：Creative Commons BY-NC-SA 3.0
更多課程歡迎瀏覽交大開放式課程網站：http://ocw.nctu.edu.tw/ 本課程同時收錄至國立交通大學機構典藏，詳情請見：http://ir.nctu.edu.tw/handle/11536/10...

1-1 古典物理的原子模型有問題！？ 1:33:03
1-2 介於古典與現代之間的波爾量子模型 44:49
1-3 初識薛丁格方程式及粒子在盒中運動 (1/2) 1:02:57
1-3 初識薛丁格方程式及粒子在盒中運動 (2/2) 58:27
1-4 氫原子的軌域與能階 1:15:34
2-1 簡介「self-consistent field (SCF) method 」(自我一致場的方法) 9:46
2-2 多電子原子的電子組態與遞建原理 1:03:18
2-3 元素的特性與週期表 56:00
3-1 離子鍵與共價鍵的特性 1:10:55
3-2 共價鍵的古典理論：路易士結構 (Lewis Structure) 1:57:54
3-3 共價鍵的量子理論：Valence Bond Theory 及 Molecular Orbital Theory (1/2) 1:00:14
3-3 共價鍵的量子理論：Valence Bond Theory 及 Molecular Orbital Theory (2/2) 1:49:21
4-1 價層電子對排斥模型 (VSEPR Model) 1:22:52
4-2 價鍵理論 (Valence-Bond Theory) 與混成軌域 51:07
4-3 同分異購物 25:18
4-4 大分子的分子鍵結理論 (VB + MO Theory) 1:43:56
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4-5 分子間的作用力 1:02:57
5-1 相圖與相律 (phase diagram and phase rule) 31:46
5-2 理想氣體方程式 (ideal-gas equation) 1:07:14
5-3 氣體動力論 (kinetic theory of gases) 1:15:43
5-4 真實氣體的狀態方程式 (equation of state) 1:02:40
6-1 液體的結構與性質 (The Structure and Properties of Liquids) 44:15
6-2 固體的結構與性質 (The Structure and Properties of Solids) 2:03:36
6-3 簡介能帶理論 (Introduction to the Band Theory) 36:07
7-1 熱力學第一定律：系統、狀態與能量 (The First Law of Thermodynamics: System, State and Energy) (1/3)  54:53
7-1 熱力學第一定律：系統、狀態與能量 (The First Law of Thermodynamics: System, State and Energy) (2/3) 44:34
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7-1 熱力學第一定律：系統、狀態與能量 (The First Law of Thermodynamics: System, State and Energy) (3/3) 46:44
7-2 熱焓與熱容 (Enthalpy and Heat Capacity) 1:59:09
7-3 物理狀態改變中的熱焓變化 (Enthalpy Change of Physical Transformation) 12:52
7-4 化學反應中的熱焓變化 (Enthalpy Change of Chemical Reaction) 1:13:12
8-1 熱力學第二定律：熵與自發過程 (The Second Law of Thermodynamics: Entropy and Spontaneous Processes) (1/2) 45:24
8-1 熱力學第二定律：熵與自發過程 (The Second Law of Thermodynamics: Entropy and Spontaneous Processes) (2/2) 1:25:11
8-2 熱力學第三定律：計算熵的絕對值及其應用 30:53
8-3 自由能 (Gibbs Free Energy) 1:11:30
8-4 課外補充 37:21

Iconoclash: Countering Violent Extremism: A New Era of Peacebuilding

source: New York University     2016年5月16日
NYU Washington, DC hosted the final Iconoclash panel, which provided an overview of the lessons learned from over twenty years of interacting with Islamic fundamentalism. How do we bridge the gaps in trust and understanding? How do we build dialogue and cooperation on an equal level? What can the arts or other means of cultural interaction contribute to overcoming the bottleneck of dialogue? How can we successfully use social media for such ends? This panel concluded the series Iconoclash 2015/2016, organized by EUNIC Washington DC in collaboration with the British Council and supported by the EU Delegation to the U.S.

Yale College Class Day Exercises (Samantha Power)

source: Yale University     2016年5月22日
The Yale College Class Day exercises will feature an address by Samantha Power, permanent representative to the United Nations and a member of President Obama's Cabinet, on Sunday, May 22, 2016

When will doctors start prescribing ‘food as medicine?’ - WIRED Health

source: WIRED UK     2016年5月12日
Dr Molly Maloof keeps the entrepreneurs of Silicon Valley in peak physical condition, but you won't find many pills on her prescriptions.
You're more likely to go away from an appointment with Maloof with a new Instagram to check out and five app recommendations. That's because she believes that food is the best medicine. Read more:http://wired.uk/lFL17c

The New Cosmos: Answering Astronomy’s Big Questions

source: Harvard University     2016年5月24日
Over the past decade, astronomers have answered - or are closing in on the answers to - some of the biggest questions about the universe. David Eicher presents a spectacular exploration of the cosmos that provides you with a balanced and precise view of the latest discoveries. Among the "big science" topics covered in his new book are dark energy, dark matter, water on Mars, the planethood of Pluto, the barred-spiral structure of the Milky Way, and the ubiquitous nature of black holes.

Analog Circuits by A. N. Chandorkar (IIT Bombay)

# click the upper-left icon to select videos from the playlist 

source: nptelhrd    2015年12月15日
Electronics - Analog Circuits by Prof. A.N. Chandorkar, Department of Electronics & Communication Engineering, IIT Bombay. For more details on NPTEL visit http://nptel.ac.in

Lec-01 Introduction to Analog Circuits - An Overview 1:04:35
Lec-02 Two Parts of Review of Analog Filter Approximation 1:19:42
Lec-03 BJT Small Signal Model 1:17:14
Lec-04 BJT Small Signal Model [Continuation from Lecture 3] 1:14:20
Lec-05 MOS Circuit Model 1:07:43
Lec-06 Biasing of Circuits 1:11:18
Lec-07 Amplifiers 1:14:46
Lec-08 MOS Amplifiers 1:05:04
Lec-09 Cascode Amplifier 1:09:18
Lec-10 Frequency Response of Amplifier 1:10:21
Lec-11 Frequency Response of Amplifier 56:29
Lec-12 Frequency Response of Amplifier 1:19:01
Lec-13 Frequency Response of Amplifier 1:03:49
Lec-14 Differential Amplifier 1:16:55
Lec-15 Differential Amplifier 1:02:11
Lec-16 Differential Amplifier 1:10:48
Lec-17 Feedback Theory 1:05:04
Lec-18 Feedback Theory 1:18:07
Lec-19 OPAMP Circuits 1:17:05
Lec-20 OPAMP Circuits 1:07:25
Lec-21 Active RC Filters 1:12:53
Lec-22 Active Filters 1:08:18
Lec-23 Oscillators 1:05:58
Lec-24 Oscillators 1:14:05
Lec-25 DAC/ADC 1:03:49

CMOS Analog VLSI Design by A. N. Chandorkar (IIT Bombay)

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source: nptelhrd    2015年12月21日
Electronics - CMOS Analog VLSI Design  by Prof. A.N. Chandorkar, Department of Electronics & Communication Engineering, IIT Bombay. For more details on NPTEL visit http://nptel.ac.in

Lecture 1 : Introduction to CMOS Analog VLSI Design 55:03
Lecture 24 : Noise 27:24
Lecture 25 : Noise contd...... 19:16
Lecture 5 : Basic of MOS Amplifier (part-1) 1:12:04
Lecture 26 : Layout of Analog Circuit 1:06:33
Lecture 28 : Oscillators contd..... 1:08:07
Lecture 29 : Oscillators contd..... 52:22
Lecture 27 : Oscillators 1:05:39
Lecture 23 : Fully Differential Amplifier and Noise 1:07:22
Lecture 21: Operational Transconductance Amplifier 1:10:40
Lecture 20 :OPAMP Design 1:18:29
Lecture 19 : OPAMP Design 1:03:16
Lecture 18 : OPAMP Design Issues 1:09:31
Lecture 17 : Basic of CMOS OPAMP 1:08:16
Lecture 16 : Frequency Response of Amplifier 1:11:30
Lecture 15 : Current Sources 1:12:03
Lecture 14 : Current Sources 1:15:54
Lecture 13 : Current Sources 58:23
Lecture 12 : Differential Amplifier 1:14:00
Lecture 11 : Differential Amplifier 1:06:03
Lecture 10 : Types of MOSFET Amplifier 1:04:41
Lecture 9 : Types of MOSFET Amplifier 1:09:25
Lecture 8 : Cascode Amplifier 1:13:02
Lecture 7 : Basic of MOS Amplifier ( Part-3) 1:06:38
Lecture 6 : Basic of MOS Amplifier ( Part-2) 29:32
Lecture 4 : MOS Fundamentals contd... 1:25:32
Lecture 22 :OTA Operation Transconductance Amplifier and Application 1:02:02
Lecture 3 : MOS Fundamentals 1:13:43
Lecture 2 : Introduction to CMOS Analog VLSI Design contd..... 1:03:44

Modern Instrumental Methods of Analysis by J. R. Mudakavi (IISC Bangalore)

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source: nptelhrd     2012年5月17日
Chemical - Modern Instrumental Methods of Analysis by Dr. J.R. Mudakavi, Department of Chemical Engineering, IISC Bangalore. For more details on NPTEL visit http://nptel.iitm.ac.in

Lec-01 Introduction to the Modern Instrumental Methods of Analysis
Lec-02 Atomic Structure 55:37
Lec-03 Physical Properties of Electromagnetic Radiation 46:47
Lec-04 Interaction of Matter with Radiation 55:16
Lec-05 Ultraviolet and Visible Spectrophotometry -1 i. Theoretical Aspects 54:14
Lec-06 Ultraviolet and Visible Spectrophotometry -2 ii. Theoretical Aspects 54:35
Lec-07 Ultraviolet and Visible Spectrophotometry -3 iii. Theoretical Aspects 53:27
Lec-08 Ultraviolet and Visible Spectrophotometry -4 iv. Instrumentation 57:41
Lec-09 Ultraviolet and Visible Spectrophotometry -5 v. Instrumentation 58:48
Lec-10 Ultraviolet and Visible Spectrophotometry -6 vi. Applications 56:38
Lec-11 Fluorescence and Phosphorescence Spectrophotometry 1 i. Theoretical Aspects 57:45
Lec-12 Fluorescence and Phosphorescence Spectrophotometry -2 ii. Instrumentation 54:07
Lec-13 Fluorescence and Phosphorescence Spectrophotometry -3 iii. Application 58:28
Lec-14 Atomic Fluorescence i. Theoretical aspects 57:56
Lec-15 X- Ray Analytical Techniques -1 ii. Instrumentation 57:35
Lec-16 X- Ray Analytical Techniques -2 iii. Applications 58:24
Lec-17 Atomic Absorption Spectrometry -1 i. Theoretical Aspects 56:39
Lec-18 Atomic Absorption Spectrometry -2 ii.Theoretical Aspects 58:06
Lec-19 Atomic Absorption Spectrometry -3 iii. Instrumentation 57:26
Lec-20 Atomic Absorption Spectrometry -4 iv. Instrumentation 57:50
Lec-21 Atomic Absorption Spectrometry -5 v. Instrumentation 57:51
Lec-22 Atomic Absorption Spectrometry -6 vi. Signal handling 57:32
Lec-23 Atomic Absorption Spectrometry -7 vii. Interferences 57:33
Lec-24 Atomic Absorption Spectrometry -8 viii. Hydride Generation AAS 58:26
Lec-25 Atomic Absorption Spectrometry -9 ix.Cold Vapour Mercury AAS 58:39
Lec-26 Electrothermal Atomic Absorption Spectrometry -10 x. Electrothermal Aspects 57:07
Lec-27 Electrothermal Atomic Absorption Spectrometry -11 xi. Practical Aspects 1:00:07
Lec-28 Inductively Coupled Plasma Atomic Emission Spectrometry -1 i. Theoretical Aspects 57:44
Lec-29 Inductively Coupled Plasma Atomic Emission Spectrometry -2 ii. Instrumentation 58:36
Lec-30 Inductively Coupled Plasma Atomic Emission Spectrometry -3 iii. 58:42
Lec-31 Infrared Spectroscopy -1 i. Theoretical Aspects 58:26
Lec-32 Infrared Spectroscopy -2 ii. Practical Aspects 59:17
Lec-33 Infrared Spectroscopy -3 iii. Nondispensive IR, Mass spectrometer 57:18
Lec-34 Introduction to Mass Spectrometry 57:28
Lec-35 Introduction to Nuclear Magnetic Resonance Spectroscopy 56:43
Lec-36 Fundamentals of Electrochemical Techniques -1 i. Introduction 58:24
Lec-37 Fundamentals of Electrochemical Techniques -2 ii. Introduction continued 58:23
Lec-38 Polarography -1 i. Introduction 59:12
Lec-39 Polarography -2 ii. Applications 58:53
Lec-40 Chromatography -1 i. Introduction 57:18
Lec-41 Gas chromatography -1 i. Instrumentation 56:36
Lec-42 Gas chromatography -2 ii. Applications 58:40
Lec-43 Gas chromatography -3 iii. Applications 58:43

Niket Kaisare: Computational Techniques (IIT Madras)

# playlist of the 40 videos (click the up-left corner of the video)

source: nptelhrd     2012年7月26日
Chemical - Computational Techniques by Dr. Niket Kaisare, Department of Chemical Engineering, IIT Madras. For more details on NPTEL visit http://nptel.iitm.ac.in

Lec-01 Introduction 53:53
Lec-02 Computational and Error Analysis 51:31
Lec-03 Linear Equations Part 1 53:48
Lec-04 Linear Equations Part 2 54:46
Lec-05 Linear Equations Part 3 57:48
Lec-06 Linear Equations Part 4 57:02
Lec-07 Linear Equations Part 5 57:09
Lec-08 Linear Equations Part 6 57:21
Lec-09 Non Linear Algebraic Equations Part 1 1:05:18
Lec-10 Non Linear Algebraic Equations Part 2 1:01:46
Lec-11 Non Linear Algebraic Equations Part 3 50:36
Lec-12 Non Linear Algebraic Equations Part 4 41:01
Lec-13 Non Linear Algebraic Equations Part 5 52:55
Lec-14 Non Linear Algebraic Equations Part 6 52:38
Lec-15 Regression and Interpolation Part 1 51:56
Lec-16 Regression and Interpolation Part 2 48:21
Lec-17 Regression and Interpolation Part 3 56:02
Lec-18 Regression and Interpolation Part 4 50:55
Lec-19 Regression and Interpolation Part 5 57:10
Lec-20 Differentiation and Integration Part 1 57:15
Lec-21 Differentiation and Integration Part 2 53:04
Lec-22 Differentiation and Integration Part 3 55:19
Lec-23 Differentiation and Integration Part 4 54:57
Lec-24 Differentiation and Integration Part 5 57:48
Lec-25 Ordinary Differential Equations (initial value problems) Part 1 50:30
Lec-26 Ordinary Differential Equations (initial value problems) Part 2 49:31
Lec 27 Ordinary Differential Equations (initial value problems) Part 3 54:07
Lec-28 Ordinary Differential Equations (initial value problems) Part 4 50:52
Lec-29 Ordinary Differential Equations (initial value problems) Part 5 56:30
Lec-30 Ordinary Differential Equations (initial value problems) Part 6 53:08
Lec-31 Ordinary Differential Equations (initial value problems) Part 7 54:58
Lec-32 Ordinary Differential Equations (initial value problems) Part 8 52:51
Lec-33 Ordinary Differential Equations (initial value problems) Part 9 54:29
Lec-34 Ordinary Differential Equations (boundary value problems) Part 1 51:45
Lec-35 Ordinary Differential Equations (boundary value problems) Part 2 50:10
Lec-36 Ordinary Differential Equations (boundary value problems) Part 3 48:09
Lec-37 Partial Differential Equations Part 1 50:45
Lec-38 Partial Differential Equations Part 2 56:16
Lec-39 Partial Differential Equations Part 3 51:39
Lec-40 Partial Differential Equations Part 4 51:53

Andy Andres: "Sabermetrics 101: Introduction to Baseball Analytics" | Ta...

source: Talks at Google    2016年6月23日
Professor Andy Andres of Boston University visited Google's office in Cambridge, MA to discuss detailed statistical analysis of baseball players' performance.
Prof. Andres is an expert in Sabermetrics, the application of statistical analysis to baseball records, especially in order to evaluate and compare the performance of individual players.

Cast and Creators of the 2015 Best Musical: "Fun Home" | Talks at Google

source: Talks at Google     2016年6月13日
Join cast and creators of Broadway's "Fun Home", Beth Malone, Emily Skeggs, Gabriella Pizzolo, Lisa Kron, and Jeanine Tesori, for a performance and Q&A. http://funhomebroadway.com
The winner of five 2015 Tony Awards® including Best Musical, Fun Home is based on Alison Bechdel’s best-selling graphic memoir. The story a gripping portrayal of a daughter’s determination to understand and connect with her volatile, brilliant, enigmatic father.
This groundbreaking production introduces us to the daughter at three different ages, revealing memories of her uniquely dysfunctional family that connect with her in surprising new ways. Heart-gripping and cathartic, Fun Home occupies the place where we all grew up.
Moderated by Alan Seales.

Parag Khanna: "Connectography: Mapping the Future of Global Civilization" | Talks at Google

source: Talks at Google     2016年5月23日
We’re accelerating into a future shaped less by countries than by connectivity. Mankind has a new maxim – Connectivity is destiny – and the most connected powers, and people, will win.
Connectography completes Parag Khanna’s trilogy on the future of world order.

In this book he guides us through the emerging global network civilization in which mega-cities compete over connectivity more than borders. His journeys take us from Ukraine to Iran, Mongolia to North Korea, Panama City to Dubai, and the Arctic Circle to the South China Sea—all to show how 21st century conflict is a tug-of-war over pipelines and Internet cables, advanced technologies and market access.
Yet Connectography is a hopeful vision of the future. Khanna argues that new energy discoveries and innovations have eliminated the need for resource wars, global financial assets are being deployed to build productive infrastructure that can reduce inequality, and frail regions such as Africa and the Middle East are unscrambling their fraught colonial borders through ambitious new transportation corridors and power grids. Beneath the chaos of a world that appears to be falling apart is a new foundation of connectivity pulling it together.
Parag Khanna is a leading global strategist, world traveler, and best-selling author. He is a CNN Global Contributor and Senior Research Fellow in the Centre on Asia and Globalisation at the Lee Kuan Yew School of Public Policy at the National University of Singapore. His previous books include The Second World and How to Run the World. He is also Managing Partner of Hybrid Reality, a boutique geostrategic advisory firm, and is a Young Global Leader of the World Economic Forum.
Moderated by Yasmin Green.

Tandy Warnow, Genome-scale estimation of the Tree of Life

source: Stanford     2016年5月31日
On February 29, 2016, Dr. Warnow presented this talk on Stanford campus at the annual CEHG symposium. CEHG is Stanford's Center for Computational, Evolutionary and Human Genomics.