The ancient origins of the Olympics - Armand D'Angour

source: TED-Ed      2015年9月3日
View full lesson: http://ed.ted.com/lessons/the-ancient...
Thousands of years in the making, the Olympics began as part of a religious festival honoring the Greek god Zeus in the rural Greek town of Olympia. But how did it become the greatest show of sporting excellence on earth? Armand D’Angour explains the evolution of the Olympics.
Lesson by Armand D'Angour, animation by Diogo Viegas.

整合性交通走廊控制與運作--張金琳 / 交大

# 播放清單 (請按影片的右上角選取)

source:nctuocw    2015年8月21日
授課教師：美國馬里蘭大學張金琳教授 應邀授課
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：http://ocw.nctu.edu.tw/

Lec01 整合性交通走廊控制與運作 第一講課程 2:12:45
Lec02 整合性交通走廊控制與運作 第二講課程 2:36:32
Lec03 整合性交通走廊控制與運作 第三講課程 2:20:24
Lec04 整合性交通走廊控制與運作 第四講課程 1:56:39
Lec05 整合性交通走廊控制與運作 第五講課程 2:02:00
Lec06 整合性交通走廊控制與運作 第六講課程 2:00:13
Lec07 整合性交通走廊控制與運作 第七講課程 1:48:20
Lec08 整合性交通走廊控制與運作 第八講課程 40:45

整合交通控制與先進技術於實務之應用--張金琳 / 交大

# 播放清單 (請按影片的右上角選取)

source: nctuocw       上次更新日期：2015年8月21日
授課教師：美國馬里蘭大學張金琳教授 應邀授課
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：http://ocw.nctu.edu.tw/

Lec01 整合交通控制與先進技術於實務之應用 第一講課程 2:58:53
Lec02 整合交通控制與先進技術於實務之應用 第二講課程 2:14:35
Lec03 整合交通控制與先進技術於實務之應用 第三講課程 2:02:54
Lec04 整合交通控制與先進技術於實務之應用 第四講課程 2:14:01
Lec05 整合交通控制與先進技術於實務之應用 第五講課程 1:25:15
Lec06 整合交通控制與先進技術於實務之應用 第六講課程 2:24:11
Lec07 整合交通控制與先進技術於實務之應用 第七講課程 2:33:30
Lec08 整合交通控制與先進技術於實務之應用 第八講課程 1:27:35

Evolution and Medicine (2015) with Stephen Stearns / Yale University

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

source: YaleCourses      上次更新日期：2015年9月2日

"Evolutionary Medicine" Sinauer Associates (2015) is the textbook that supports these lectures.
Instructors can request examination copies and sign up to download figures here:
http://www.sinauer.com/catalog/medical/evolutionary-medic...
This course is a survey of evolutionary insights that make important differences in medical research and clinical practice, including evolutionary mechanisms and the medical issues they affect. Individual genetic variation in susceptibility; evolutionary conflicts and tradeoffs in reproductive medicine; the evolution of antibiotic resistance and virulence in pathogens; emerging diseases; the evolution of aging; cancer as an evolutionary process.

0.0 - Welcome to Evolution and Medicine 10:40
1.1 - Evolutionary Thinking: Natural Selection 13:36
1.2 - Evolutionary Thinking: Random Evolution, The Role of Chance 20:45
1.3 - Evolutionary Thinking: Mismatch, a Major Cause of Maladaptation 8:47
1.4 - Evolutionary Thinking: Adaptation: Why it is Problematic and How to Recognize it 13:22
1.5 - Evolutionary Thinking: Styles of thought: Typological, Population, and Tree Thinking 12:30
2.1 - What is a patient? Ancient History 12:50
2.2 - What is a patient? Recent History 14:08
2.3 - What is a patient? Variation in disease resistance 11:10
2.4 - What is a patient? Variation in disease resistance 15:49
2.5 - What is a patient? Life history 15:22
2.6 - What is a patient? Plasticity and reaction norms 12:22

2.7 - What is a patient? Tradeoffs 16:52
2.8 - What is a patient? Aging 16:33
2.9 - What is a patient? The unusual human life history 19:58
2.10 - What is a patient? Developmental origins of health and disease 10:02
2.11 - What is a patient? Development and the microbiota 14:49
2.12 - What is a patient? Recap 5:45
3.1 - What is a disease? Introduction 16:33
3.2 - What is a disease? Vulnerable to robust 9:55
3.3 - What is a disease? Fixed to adjustable 5:43
3.4 - What is a disease? History and mismatch 5:41
4.1 - Defenses: Origin in homeostasis 8:08
4.2 - Defenses: Types and costs 10:18
4.3 - Defenses: Specialized 1 10:11
4.4 - Defenses: Specialized 2 13:01
4.5 - Defenses: Diseases 7:19
4.6 - Defenses: Key characteristics 12:12
4.7 - Defenses: Strategies 1 8:17
4.8 - Defenses: Strategies 2 7:18
4.9 - Defenses: Innate immunity 7:16
4.10 - Defenses: Adaptive immunity 9:08
4.11 - Defenses: Clonal evolution 8:22
5.1 - Pathogen evolution: Virulence 1 9:39
5.2 - Pathogen evolution: Virulence 2 10:57
5.3 - Pathogen evolution: Managing the microbiota 14:43
5.4 - Pathogen evolution: Evading defenses 12:56
5.5 - Pathogen evolution: Resistance 13:06
5.6 - Pathogen evolution: Evolution-proof therapies 11:00
6.1 - Cancer: Introduction 8:36
6.2 - Cancer: Why we are susceptible 13:22
6.3 - Cancer: Clonal evolution 11:31
6.4 - Cancer: Phylogenetic insights 10:33
6.5 - Cancer: Evading the immune system 10:44
6.6 - Cancer: Adaptive chemotherapy 11:13
7.1 - Reproduction: The evolution of mammalian reproduction 17:10
7.2 - Reproduction: Invasive placentas and risk of metastatic cancer 14:49
7.3 - Reproduction: Parent-offspring conflict 10:21
7.4 - Reproduction: Menstruation 8:39
7.5 - Reproduction: Menopause 8:52
7.6 - Reproduction: Upright posture and childbirth 6:16
8.1 - Mismatch: Introduction 6:43
8.2 - Mismatch: Evidence from time and space 9:37
8.3 - Mismatch: Obesity 9:09
8.4 - Mismatch: type 2 diabetes 5:29
8.5 - Mismatch: Heart disease and cancer 7:50
8.6 - Mismatch: Hygiene and Old Friends 11:21
9.1 - Mental disorders: Explanations 5:49
9.2 - Mental disorders: Drug addiction 6:42
9.3 - Mental disorders: Anxiety, depression, and OCD 5:33
9.4 - Mental disorders: Autism and schizophrenia 9:21
10.1 - Population consequences of individual decisions 7:51
10.2 - The Great Transition and its impacts on health, disease, and selection 11:06
11.1 - Open questions 5:15
11.2 - Classical and evolutionary medicine 2:58

General Relativity 2012 (Leonard Susskind / Stanford University)

# automatic playing for the 10 videos (click the up-left corner for the list)

source: Stanford     Last updated on 2014年9月25日
The Fall 2012 quarter of the Modern Physics series concentrates on Einstein's theory of gravity and geometry: the General Theory of Relativity. Beginning with the basic ideas of Riemannian and curved space, and Minkowski's "space-time," we learn about Einstein's discovery of how gravity is really the curvature of space-time. We also cover the theory of black holes and their strangely paradoxical properties. The final weeks of the course develop the essential ideas of Big Bang cosmology. Originally presented by the Stanford Continuing Studies Program. Professor Susskind's Book, "The Theoretical Minimum" now available: http://www.theoreticalminimumbook.com/

General Relativity Lecture 10 1:36:20
General Relativity Lecture 9 1:44:24
General Relativity Lecture 8 1:23:09
General Relativity Lecture 7 1:54:50
General Relativity Lecture 6 2:04:24
General Relativity Lecture 5 1:39:07
General Relativity Lecture 4 1:41:02
General Relativity Lecture 3 1:52:34
General Relativity Lecture 2 1:45:47
General Relativity Lecture 1 1:49:28

Special Relativity 2012 (Leonard Susskind / Stanford University)

# automatic playing for the 10 videos (click the up-left corner for the list)

source: Stanford    Last updated on 2014年9月25日
In 1905, while only twenty-six years old, Albert Einstein published "On the Electrodynamics of Moving Bodies" and effectively extended classical laws of relativity to all laws of physics, even electrodynamics. In this course, Professor Susskind takes a close look at the special theory of relativity and also at classical field theory. Concepts addressed here includes space-time and four-dimensional space-time, electromagnetic fields and their application to Maxwell's equations. He also covers the work of the German mathematician Hermann Minkowski. Originally presented by the Stanford Continuing Studies Program. Professor Susskind's Book, "The Theoretical Minimum" now available: http://www.theoreticalminimumbook.com/

Special Relativity | Lecture 1 1:58:15
Special Relativity | Lecture 2 54:00
Special Relativity | Lecture 3 1:59:28
Special Relativity | Lecture 4 1:50:11
Special Relativity | Lecture 5 2:01:01
Special Relativity | Lecture 6 1:56:48
Special Relativity | Lecture 7 1:46:27
Special Relativity | Lecture 8 1:46:45
Special Relativity | Lecture 9 1:39:52
Special Relativity | Lecture 10 1:54:45