2015-09-05

The Rust Programming Language -- Alex Crichton


source: GoogleTechTalks       2015年7月28日
June 6, 2015 / Presented by Alex Crichton

ABSTRACT
Rust is an exciting new programming language that combines fine-grained control over memory layout and allocation patterns with memory and thread safety. It reached 1.0 in May and is rapidly gaining acceptance in projects including Servo (Mozilla's next generation parallel layout engine), a block store being developed by Dropbox, and numerous startups. Its features include zero-cost abstractions, move semantics, guaranteed memory safety, threads without data races, trait-based generics, pattern matching, type inference, minimal runtime, and efficient C bindings. ‚Alex Crichton will present an introduction to the Rust programming language, explain how it can be used to build performant, reliable systems, and answer your questions.

Speaker Info:
Alex Crichton ‚About the speaker: Alex Crichton is a member of the Rust core team working at Mozilla Research. He focuses on the standard library, Cargo, crates.io, and Rust's tooling and infrastructure experience. He's been at Mozilla for almost two years and graduated from Carnegie Mellon in 2013 with a BS in both Computer Science and Electrical and Computer Engineering.

Chris Koch: "If I Can..." | Talks at Google


source: Talks at Google      2015年9月3日
Meet Chris Koch... farmer, skier, world traveler. But with one distinct difference. Chris, who was recently featured on the Oprah Winfrey Network, was born without arms or legs.
As Chris's grandmother put it, Your dad "never did finish anything he started".
Chris attributes that dry and quirky sense of humor as the reason why he can honestly say that growing up without arms and legs was quite easy.
Today Chris is a motivational speaker and he wants you to know that "IF I CAN... so can you".
Links:
About Chris: http://www.ifican.ca/about/
From the Oprah Winfrey Network: https://youtu.be/H9S3n_tILKo?t=33s

微積分(二)-2014學年度--莊重 / 交大

# 播放清單 (請按影片的右上角選取)

source: nctuocw         2015年8月21日
本課程是由交通大學應用數學系提供。
本課程除了微分積分之方法與計算之外,學習重點在於基本數學觀念的理解。例如中間值定理、平均值定理、極值定理等。這些定理不僅­本身有其基本應用的價值,背後也有它們數學的涵義與想法。瞭解這些想法,一方面可以推廣這些定理,另一方面當我們面臨更複雜的問­題時,解決問題初步的試探可以以這些基本數學想法做為基礎或做為類比。這是數學做為一種科學思考的價值。
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 微積分(二)-10.3 Polar Coordinates 39:27
Lec02 微積分(二)-10.4 Areas and Lengths in Polar Coordinates 27:50
Lec03 微積分(二)-11.1 Sequences 30:10
Lec04 微積分(二)-11.2 Series 31:35
Lec05 微積分(二)-11.3 The Integral Test and Estimates of Sums 39:44
Lec06 微積分(二)-11.4 The Comparison Tests 25:42
Lec07 微積分(二)-11.5 Alternating Series 19:31
Lec08 微積分(二)-11.6 Absolute Convergence and the Ratio and Root Tests 51:02
Lec09 微積分(二)-11.8 Power Series 30:34
Lec10 微積分(二)-11.9 Representations of Functions as Power Series 37:09
Lec11 微積分(二)-11.10 Taylor and Maclaurin Series 58:37
Lec12 微積分(二)-11.11 Applications of Taylor Polynomials 19:55
Lec13 微積分(二)-12.2 Vectors 9:35
Lec14 微積分(二)-12.3 The Dot Product 10:40
Lec15 微積分(二)-12.4 The Cross Product 26:18
Lec16 微積分(二)-12.5 Equations of Lines and Planes 31:24
Lec17 微積分(二)-12.6 Cylinders and Quadrate Surface 22:15
Lec18 微積分(二)-13.1 Vector Functions and Space Curves 10:04
Lec19 微積分(二)-13.2 Derivatives and Integrals of Vector Functions 12:10
Lec20 微積分(二)-13.3 Arc Length and Curvature 33:00
Lec21 微積分(二)-14.1 Functions of Several Variables 13:38
Lec22 微積分(二)-14.2 Limits and Continuity 48:47
Lec23 微積分(二)-14.3 Partial Derivatives 47:02
Lec24 微積分(二)-14.4 Tangent Planes and Linear Approximation 47:59
Lec25 微積分(二)-14.5 The Chain Rule 49:35
Lec26 微積分(二)-14.6 Directional Derivatives and Gradient Vector 44:59
Lec27 微積分(二)-14.7 Maximum and Minimum Values 50:26
Lec28 微積分(二)-14.8 Lagrange Multipliers 55:51
Lec29 微積分(二)-115.1 Double Integrals over Rectangles 15:34
Lec30 微積分(二)-15.2 Iterated Integrals 43:28
Lec31 微積分(二)-15.3 Double Integrals over General Regions 36:39
Lec32 微積分(二)-15.4 Double Integrals in Polar Coordinates 38:27
Lec33 微積分(二)-15.5 Applications of Double Integrals 43:05
Lec34 微積分(二)-15.6 Surface Area 24:49
Lec35 微積分(二)-15.7 Triple Integrals 50:29
Lec36 微積分(二)-15.8 Triple Integrals in Cylindrical Coordinates 13:58
Lec37 微積分(二)-15.9 Triple Integrals in Spherical Coordinates 39:07
Lec38 微積分(二)-15.10 Change of Variables in Multiple Integrals 48:11

海洋與海岸管理 (Fall 2013, 陸曉筠/中山大學)

# 播放清單 (請按影片的左上角選取)

source: NSYSUOCW       2015年8月25日
國立中山大學開放式課程網址 http://ocw.nsysu.edu.tw

海洋與海岸管理(陸曉筠老師) 1海洋生態與環境系統 1:33:32
海洋與海岸管理(陸曉筠老師) 2海洋資源與海洋產業 1:15:23
海洋與海岸管理(陸曉筠老師) 3海洋保護的國際行為 33:53
海洋與海岸管理(陸曉筠老師) 4海洋保護的國際行為 1:26:26
海洋與海岸管理(陸曉筠老師) 5航運與港市規劃 3:24:33

Leonard Susskind - All Stanford physics lectures in order


source: compiled by Mike Blackstock  Last updated on 2014年7月15日

Lecture 1 | Modern Physics: Classical Mechanics (Stanford) 47:50
Lecture 2 | Modern Physics: Classical Mechanics (Stanford) 1:44:34
Lecture 3 | Modern Physics: Classical Mechanics (Stanford) 1:35:42
Lecture 4 | Modern Physics: Classical Mechanics (Stanford) 1:50:03
Lecture 5 | Modern Physics: Classical Mechanics (Stanford) 1:47:50
Lecture 6 | Modern Physics: Classical Mechanics (Stanford) 1:52:49
Lecture 7 | Modern Physics: Classical Mechanics (Stanford) 2:00:22
Lecture 8 | Modern Physics: Classical Mechanics (Stanford) 1:42:48
Lecture 9 | Modern Physics: Classical Mechanics (Stanford) 1:21:25
Lecture 1 | Modern Physics: Quantum Mechanics (Stanford) 1:51:11
Lecture 2 | Modern Physics: Quantum Mechanics (Stanford) 1:51:04
Lecture 3 | Modern Physics: Quantum Mechanics (Stanford) 1:56:50
Lecture 4 | Modern Physics: Quantum Mechanics (Stanford) 1:59:34
Lecture 5 | Modern Physics: Quantum Mechanics (Stanford) 1:55:48
Lecture 6 | Modern Physics: Quantum Mechanics (Stanford) 1:47:28
Lecture 7 | Modern Physics: Quantum Mechanics (Stanford) 1:38:17
Lecture 8 | Modern Physics: Quantum Mechanics (Stanford) 1:38:47
Lecture 9 | Modern Physics: Quantum Mechanics (Stanford) 1:47:52
Lecture 10 | Modern Physics: Quantum Mechanics (Stanford) 1:46:51
Lecture 1 | Quantum Entanglements, Part 1 (Stanford) 1:35:35
Lecture 2 | Quantum Entanglements, Part 1 (Stanford) 1:48:39
Lecture 3 | Quantum Entanglements, Part 1 (Stanford) 1:46:54
Lecture 4 | Quantum Entanglements, Part 1 (Stanford) 1:54:07
Lecture 5 | Quantum Entanglements, Part 1 (Stanford) 1:44:59
Lecture 6 | Quantum Entanglements, Part 1 (Stanford) 1:59:13
Lecture 7 | Quantum Entanglements, Part 1 (Stanford) 1:44:56
Lecture 8 | Quantum Entanglements, Part 1 (Stanford) 1:47:43
Lecture 9 | Quantum Entanglements, Part 1 (Stanford) 1:37:01
Lecture 1 | Quantum Entanglements, Part 3 (Stanford) 1:45:58
Lectures 2 & 3 | Quantum Entanglements, Part 3 (Stanford) 1:38:59
Lecture 4 | Quantum Entanglements, Part 3 (Stanford) 1:39:32
Lecture 5 | Quantum Entanglements, Part 3 (Stanford) 1:54:51
Lecture 6 | Quantum Entanglements, Part 3 (Stanford) 1:56:12
Lecture 7 | Quantum Entanglements, Part 3 (Stanford) 1:41:26
Lecture 8 | Quantum Entanglements, Part 3 (Stanford) 2:09:26
Lecture 9 | Quantum Entanglements, Part 3 (Stanford) 1:56:07
Lecture 1 | Modern Physics: Special Relativity (Stanford) 1:49:24
Lecture 2 | Modern Physics: Special Relativity (Stanford) 1:38:44
Lecture 3 | Modern Physics: Special Relativity (Stanford) 1:39:35
Lecture 4 | Modern Physics: Special Relativity (Stanford) 1:40:32
Lecture 5 | Modern Physics: Special Relativity (Stanford) 1:44:12
Lecture 6 | Modern Physics: Special Relativity (Stanford) 1:40:52
Lecture 7 | Modern Physics: Special Relativity (Stanford) 1:48:34
Lecture 8 | Modern Physics: Special Relativity (Stanford) 1:54:37
Special Relativity | Lecture 9 1:39:52
Special Relativity | Lecture 10 1:54:45
Einstein's General Theory of Relativity | Lecture 1 1:38:28
Einstein's General Theory of Relativity | Lecture 2 1:47:37
Einstein's General Theory of Relativity | Lecture 3 1:50:41
Einstein's General Theory of Relativity | Lecture 4 1:39:12
Einstein's General Theory of Relativity | Lecture 5 1:52:16
Einstein's General Theory of Relativity | Lecture 6 1:52:51
Einstein's General Theory of Relativity | Lecture 7 1:56:44
Einstein's General Theory of Relativity | Lecture 8 1:46:13
Einstein's General Theory of Relativity | Lecture 9 1:45:08
Einstein's General Theory of Relativity | Lecture 10 1:59:32
Einstein's General Theory of Relativity | Lecture 11 1:59:07
Einstein's General Theory of Relativity | Lecture 12 2:20:46
Cosmology | Lecture 1 1:43:03
Cosmology | Lecture 2 1:57:12
Cosmology | Lecture 3 2:00:27
Cosmology | Lecture 4 2:12:39
Cosmology | Lecture 5 1:44:16
Cosmology | Lecture 6 1:44:43
Cosmology | Lecture 7 1:49:38
Cosmology | Lecture 8 1:58:42
Lecture 1 | Modern Physics: Statistical Mechanics 2:00:52
Lecture 2 | Modern Physics: Statistical Mechanics 46:49
Lecture 3 | Modern Physics: Statistical Mechanics 1:55:50
Lecture 4 | Modern Physics: Statistical Mechanics 1:35:47
Lecture 5 | Modern Physics: Statistical Mechanics 1:47:44
Lecture 6 | Modern Physics: Statistical Mechanics 1:12:58
Lecture 7 | Modern Physics: Statistical Mechanics 1:39:55
Lecture 8 | Modern Physics: Statistical Mechanics 1:37:32
Lecture 9 | Modern Physics: Statistical Mechanics 1:32:32
Lecture 10 | Modern Physics: Statistical Mechanics 1:43:39
Lecture 1 | New Revolutions in Particle Physics: Basic Concepts 1:54:10
Lecture 2 | New Revolutions in Particle Physics: Basic Concepts 1:50:35
Lecture 3 | New Revolutions in Particle Physics: Basic Concepts 1:59:29
Lecture 4 | New Revolutions in Particle Physics: Basic Concepts 1:51:43
Lecture 5 | New Revolutions in Particle Physics: Basic Concepts 1:58:27
Lecture 6 | New Revolutions in Particle Physics: Basic Concepts 1:42:04
Lecture 7 | New Revolutions in Particle Physics: Basic Concepts 1:42:59
Lecture 8 | New Revolutions in Particle Physics: Basic Concepts 1:46:11
Lecture 9 | New Revolutions in Particle Physics: Basic Concepts 2:01:53
Lecture 10 | New Revolutions in Particle Physics: Basic Concepts 1:34:51
Lecture 1 | New Revolutions in Particle Physics: Standard Model 1:37:17
Lecture 2 | New Revolutions in Particle Physics: Standard Model 1:38:29
Lecture 3 | New Revolutions in Particle Physics: Standard Model 49:10
Lecture 4 | New Revolutions in Particle Physics: Standard Model 1:41:32
Lecture 5 | New Revolutions in Particle Physics: Standard Model 1:34:42
Lecture 6 | New Revolutions in Particle Physics: Standard Model 1:32:38
Lecture 7 | New Revolutions in Particle Physics: Standard Model 1:48:08
Lecture 8 | New Revolutions in Particle Physics: Standard Model 1:24:00
Lecture 9 | New Revolutions in Particle Physics: Standard Model 1:35:34
Lecture 10 | New Revolutions in Particle Physics: Standard Model 1:38:20
Lecture 1 | String Theory and M-Theory 1:46:55
Lecture 2 | String Theory and M-Theory 1:48:07
Lecture 3 | String Theory and M-Theory 1:45:47
Lecture 4 | String Theory and M-Theory 1:23:37
Lecture 5 | String Theory and M-Theory 1:40:49
Lecture 6 | String Theory and M-Theory 1:24:24
Lecture 7 | String Theory and M-Theory 1:22:30
Lecture 8 | String Theory and M-Theory 1:44:26
Lecture 9 | String Theory and M-Theory 1:55:56
Lecture 10 | String Theory and M-Theory 1:47:49
Lecture 1 | Topics in String Theory 1:34:28
Lecture 2 | Topics in String Theory 1:34:38
Lecture 3 | Topics in String Theory 1:40:51
Lecture 4 | Topics in String Theory 1:36:10
Lecture 5 | Topics in String Theory 1:29:31
Lecture 6 | Topics in String Theory 1:00:23
Lecture 7 | Topics in String Theory 1:42:17
Lecture 8 | Topics in String Theory 1:44:26
Lecture 9 | Topics in String Theory 2:05:56
Lecture 1 | The Theoretical Minimum 1:46:33
Lecture 2 | The Theoretical Minimum 1:59:04
Lecture 3 | The Theoretical Minimum 1:40:39
Lecture 4 | The Theoretical Minimum 1:47:23
Lecture 5 | The Theoretical Minimum 2:03:47
Lecture 6 | The Theoretical Minimum 1:42:59
Lecture 7 | The Theoretical Minimum 2:11:22
Lecture 8 | The Theoretical Minimum 1:51:32
Lecture 9 | The Theoretical Minimum 1:36:07
Lecture 10 | The Theoretical Minimum 1:46:31
Advanced Quantum Mechanics Lecture 1 1:40:06
Advanced Quantum Mechanics Lecture 2 1:48:27
Advanced Quantum Mechanics Lecture 3 1:57:36
Advanced Quantum Mechanics Lecture 4 1:38:47
Advanced Quantum Mechanics Lecture 5 1:43:32
Advanced Quantum Mechanics Lecture 6 1:49:56
Advanced Quantum Mechanics Lecture 7 1:27:17
Advanced Quantum Mechanics Lecture 8 1:41:39
Advanced Quantum Mechanics Lecture 9 1:43:35
Advanced Quantum Mechanics Lecture 10 1:23:37
Demystifying the Higgs Boson with Leonard Susskind 1:15:08

Modern Physics: Cosmology 2009 (Leonard Susskind / Stanford U)

# automatic playing for the 8 videos (click the up-left corner for the list)

source: Stanford     Last updated on 2014年9月25日
This Stanford Continuing Studies course is the fifth of a six-quarter sequence of classes exploring the essential theoretical foundations of modern physics. The topics covered in this course focus on cosmology. The course is taught by Leonard Susskind, the Felix Bloch Professor of Physics at Stanford University.

Cosmology | Lecture 1 1:43:03
Cosmology | Lecture 2 1:57:12
Cosmology | Lecture 3 2:00:27
Cosmology | Lecture 4 2:12:39
Cosmology | Lecture 5 1:44:16
Cosmology | Lecture 6 1:44:43
Cosmology | Lecture 7 1:49:38
Cosmology | Lecture 8 1:58:42

Cosmology 2013 (Leonard Susskind / Stanford U)

# automatic playing for the 9 videos (click the up-left corner for the list)

source:  Stanford    Last updated on 2014年9月25日
The Winter 2013 quarter course of the Modern Physics series concentrates on cosmology, the science of the origin and development of the universe. Along the way, Professor Susskind takes a close look at the Big Bang, the geometry of space-time, inflationary cosmology, cosmic microwave background, dark matter, dark energy, the anthropic principle, and the string theory landscape. To appreciate the material covered in this course, students should understand basic calculus and algebra.
Originally presented by the Stanford Continuing Studies Program.
Professor Susskind's Book, "The Theoretical Minimum" now available:
http://www.theoreticalminimumbook.com/

Cosmology Lecture 1 1:35:47
Cosmology Lecture 2 1:46:07
Cosmology Lecture 3 1:41:15
Cosmology Lecture 4 1:37:11
Cosmology Lecture 5 1:45:41
Cosmology Lecture 6 1:48:47
Cosmology Lecture 7 2:01:10
Cosmology Lecture 8 1:54:22
Cosmology Lecture 9 2:08:32