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2016-12-06
Jean-Luc Nancy. The Techno-Economical-Machinery. 2016
source: European Graduate School Video Lectures 2016年12月4日
http://www.egs.edu Jean-Luc Nancy, Georg Wilhelm Friedrich Hegel Chair and Professor of Philosophy at The European Graduate School / EGS. Saas Fee, July 1st. 2016.
Jean-Luc Nancy graduated with a degree in philosophy from the Sorbonne (Paris) in 1962, where he worked with Georges Canguilhem. During his time at the Sorbonne, he also worked with Paul Ricoeur, who supervised his MA thesis on Hegel’s philosophy of religion. He briefly taught in Colmar before becoming an assistant at the Institut de philosophie at the University of Strasbourg in 1968. In 1973, he completed his doctoral dissertation on Kant’s analogical discourse under the supervision of Paul Ricoeur. In the same year, Nancy became maître-assistant (later maître de conférences) at the Université des Sciences Humaines in Strasbourg, where he remained a professor until his retirement in 2002. He has been a guest professor at numerous universities, among them the Freie Universität Berlin, the University of California, Irvine, and the University of California, Berkeley.
Nancy’s research is very diverse and his work challenges the modern idea of systematicity. While he has written on numerous major European thinkers such as Descartes, Kant, Hegel, Heidegger, etc., he has also responded to many key twentieth-century French contemporaries, such as Jacques Lacan, Georges Bataille, Maurice Blanchot, and Jacques Derrida. The philosopher’s most important topics include: the question of community, the nature of the political, German Romanticism, psychoanalysis, literature, technology, and hermeneutics.
Jean-Luc Nancy began publishing his work in the 1970s. Two of his earliest books, Le titre de la lettre: Une lecture de Lacan (1972; The Title of the Letter: A Reading of Lacan) and L’absolu littéraire: Théorie de la littérature du romantisme allemand (1978; The Literary Absolute: The Theory of Literature in German Romanticism), were co-written with Philippe Lacoue-Labarthe. Le titre de la lettre is a close reading of Jacques Lacan’s essay “The Agency of the Letter in the Unconscious or Reason Since Freud.” According to Nancy and Lacoue-Labarthe, the Lacanian discourse remains metaphysical because meaning is understood as the origin of the play of signifiers.
In 1980, Jean-Luc Nancy and Philippe Lacoue-Labarthe organised a Cérisy-Colloquium on Derrida’s work, Les fins de l’homme (The Ends of Man). This conference also constituted the beginning of an in-depth exploration of the notion of the political and a beginning for posing the question about the interconnections between deconstruction and politics. In the same year, they also formed the Centre de recherches philosophiques sur le politique. Two books, Rejouer le politique (1981) and Le retrait du politique (1983), were results of the Centre’s work (most of its important papers were translated into English in 1997 as Retreating the Political). While the Centre was closed in 1984, Nancy continued to investigate the questions of community and politics.
The result of this investigation became La communauté désoeuvrée (1986; The Inoperative Community), an examination of the idea of community. In this well-known work, "Nancy shows that [community] is neither a project of fusion nor production. Rather, he argues, community can be defined through the political nature of its resistance against immanent power."
In 1987, Jean-Luc Nancy became docteur d'état in Toulouse, with recognition from the jury (among the jury members were Jean-François Lyotard and Jacques Derrida). His supervisor was Gérard Granel. Nancy's dissertation was published as L'expérience de la liberté (1988; The Experience of Freedom), a study focusing on the notion of freedom in Kant, Schelling, and Hegel. It also marks Nancy’s return to a critical engagement with Heidegger’s fundamental ontology and especially with the notion of Mitsein or “being-with.”
The most important work from this period of Nancy’s career is Être singulier pluriel (1996; Being Singular Plural), which continues to explore some of the crucial themes presented in L'expérience de la liberté and which, in addition to the same-titled essay, Être singulier pluriel, consists of five shorter essays. The key argument of the book is again that our being is always “being-with” and that our existence is always already co-existence. Together with the exploration of this central concern, Nancy engages other important topics, among them national sovereignty, war and technology, and identity politics.
Bonnie L. Bassler: Bacterial Quorum Sensing and its Control
source: karolinskainstitutet 2016年11月9日
Research Lecture at Nobel Forum: Bonnie L. Bassler. Title: “Quorum Sensing and its Control”.
Michael J. Berridge: Inositol trisphosphate, Calcium and Vitamin D signaling in Health and Disease
source: karolinskainstitutet 2016年11月9日
Karolinska Research Lectures at Nobel Forum: Michael J. Berridge. Title: “Inositol trisphosphate, calcium and Vitamin D signalling in health and disease”.
探索16-4講座:魔獸崛起:吸血鬼的誕生/ 蕭信宏教授
source: 臺大科學教育發展中心 2016年12月4日
蚊子是人類的頭號殺手,每年奪走數百萬條人命,而我們對這些令人討厭的吸血怪,卻好像一點辦法也沒有,有一個很重要的原因就是,殺死一隻蚊子之後,還有千千萬萬隻蚊子。牠的生殖能力,遠大於我們的想像,從吸血到產卵的過程,到底有哪些東西參與?卵產出來之後,又會發生甚麼事?對於蚊子所傳播的疾病,我們又能做些什麼事?在這個演講中,我會介紹蚊子的生殖是如何進行的,以及新的蚊媒疾病控制策略。
講座時間:2016年10月29日(六) 14:00
講座地點:臺灣大學思亮館國際會議廳(同步網路直播)
活動官網:http://case.ntu.edu.tw/ex/embryos/
粉絲專頁:https://www.facebook.com/CASExplores
What Next for Growth in the UK?
source: London School of Economics and Political Science (LSE) 2016年11月7日
Speaker(s): Vince Cable, Lord Darling, Stephanie Flanders, George Osborne
Chair: Professor Lord Stern
Recorded on 2 November 2016 at Sheikh Zayed Theatre, New Academic Building
In 2013 the LSE Growth Commission published a report - Investing for Prosperity, a Manifesto for Growth. Those recommendations were widely discussed and some, notably on infrastructure, turned into concrete action by UK policymakers.
In 2016 the UK now faces new questions about its economic future including its relationship with the EU, the role of industrial policy, and new developments in labour markets. So the Commission is being re-formed and will publish a second chapter of their growth manifesto. Over the next three months they will be holding evidence sessions with academics, policy experts and business leaders. Come along to this event with an esteemed panel who have agreed to feed in to the Commission deliberations as part of this evening event at the LSE. Between them the panel have played a huge role in running and analysing the UK economy over the past decade. Their experience is unrivalled and their views on what the future might hold - and what should be done about it - promise to be fascinating.
Vince Cable (@vincecable) was UK Secretary of State for Business Innovation and Skills and President of the Board of Trade (2010-2015). He was Member of Parliament for Twickenham 1997-2015; deputy leader of the Lib Dems 2007-2010 and shadow chancellor 2003-2010.
Alistair Darling was UK Chancellor of the Exchequer from 2007 to 2010. Prior to this he served as Secretary of State for Trade and Industry, Secretary of State for Scotland and Secretary of State for Scotland. He served as MP for Edinburgh South West from 1987 to 2015 and is now a member of the House of Lords.
George Osborne (@George_Osborne) was elected to the House of Commons in June 2001. At the May 2010 General Election, George was appointed UK Chancellor of the Exchequer by the new Prime Minister, David Cameron. In May 2015 he was re-elected and was appointed First Secretary of State, a position he retained until he left Cabinet in July 2016.
Stephanie Flanders (@MyStephanomics) is the Chief Market Strategist for the UK and Europe for J.P. Morgan Asset Management. She delivers insight into the economy and financial markets to thousands of professional investors across the UK, Europe and globally. Stephanie was previously the Economics Editor at the BBC.
Nicholas Stern (@lordstern1) is the Chair of the Grantham Research Institute on Climate Change and the Environment at the LSE and Co-Chair of the LSE Growth Commission.
The CEP (@CEP_LSE) is an interdisciplinary research centre at the LSE Research Laboratory. It was established by the Economic and Social Research Council (ESRC) in 1990 and is now one of the leading economic research groups in Europe.
Keep up to date with what Brexit means for the UK and the wider world at LSE Brexit blog (@lsebrexitvote).
GSD Talks: Elia Zenghelis, “The Image as Story Line and Emblem”
source: Harvard GSD 2016年10月31日
Showing examples of his work, Elia Zenghelis will argue that images can do more than be mere illustrations. They are endowed with the makings of a much more eloquent instrumentality: they can be the embodiment and the visual discourse of a project, with all the aims, values, and content represented in a single composition. Images can be projects in their own right.
US Election 2016: The Result | John Prideaux | RSA Replay
source: The RSA 2016年11月21日
US Election 2016: The Result with John Prideaux, US editor at The Economist. It may be a post-pollster, post-pundit, post-truth landscape – but can we predict where the world goes from here? An extraordinary US presidential election campaign has resulted in an outcome that few could have predicted at its outset: Donald J Trump will become the 45th US President of the United States.
The implications of this historic decision are, for now, highly unpredictable, and for many, deeply concerning, with many questions unresolved around the course of future US policy on the economy, security, environmental protection, and human rights.
Join our expert panel at the RSA to consider what a Trump presidency says about, and means for America and the world in the days, months and years to come.
Our panel of experts include: John Prideaux, US editor at The Economist; James O'Brien, LBC radio & BBC Newsnight; Professor Malcolm Chalmers, Deputy Director-General of RUSI; Melanie McDonagh, Leader writer, Evening Standard and contributor, The Spectator; Stephen Bush, special correspondent, New Statesman.
Jerry White: London at War and Peace: Crisis and Reckoning, 1702-1951
source: SchAdvStudy 2016年11月29日
08-11-16 Institute of Historical Research
http://www.sas.ac.uk/
Institute: http://www.history.ac.uk/
The Inaugural London Journal Lecture
London at War and Peace: Crisis and Reckoning, 1702-1951
Professor Jerry White
(Birkbeck, University of London)
Jerry White explores the impact of war and its aftermath on London and the Londoner. Ranging widely over nearly three centuries of metropolitan history, White detects patterns of wartime repression and peacetime rebellion, of urban development stemmed then unleashed, of contradictory consequences for the London economy, of gains and losses for the metropolitan poor and of the terrors and limitation of a xenophobic metropolis. While all of London's wars were historically contingent, the experience and consequences of war and its legacy would repay special study by the capital's historians.
Professor Jerry White teaches modern London history at Birkbeck, University of London. His first book, Rothschild Buildings: Life in an East End Tenement Block 1887-1920, won the Jewish Chronicle Non-Fiction Book Prize for 1980; his London in the First World War, wasSpear's Social History of the Year for 2014. His Mansions of Misery. A Biography of the Marshalsea Debtors' Prison, is published by The Bodley Head in October 2016.
Cathy O'Neil: "Weapons of Math Destruction" | Talks at Google
source: Talks at Google 2016年11月2日
Cathy O'Neil is a data scientist and author of the blog mathbabe.org. She earned a Ph.D. in mathematics from Harvard and taught at Barnard College before moving to the private sector and working for the hedge fund D. E. Shaw. O'Neil started the Lede Program in Data Journalism at Columbia and is the author of "Doing Data Science." She appears weekly on the "Slate Money" podcast.
In this talk, O'Neil sounds an alarm on the mathematical models that pervade modern life and threaten to rip apart our social fabric.
Ge the book here: https://goo.gl/1L61P5
Basic Java Programming by Bart Baesens
# click the upper-left icon to select videos from the playlist
source: Bart Baesens 2015年6月26日
Chapter 0 Introduction 1:43
Chapter 1 A General Introduction to Programming 30:02
Chapter 2 Getting to Know Java 43:12
Chapter 3 Setting Up Your Development Environment 11:42
Chapter 4 Moving Toward Object Oriented Programming 43:40
Chapter 5 Controlling the Flow of Your Program 33:11
Chapter 5 NumberPyramid demo 2:59
Chapter 6 Handling Exceptions and Debugging 24:54
Chapter 6 JUnit testing demo 4:12
Chapter 6 Debugging in Eclipse demo 3:53
Chapter 7 Delving Further into Object Oriented Concepts 35:20
Chapter 7 Interface demo 11:01
Chapter 8 Handling Input and Output 42:27
Chapter 9 Graphical User Interfaces (GUIs) 45:17
source: Bart Baesens 2015年6月26日
Chapter 0 Introduction 1:43
Chapter 1 A General Introduction to Programming 30:02
Chapter 2 Getting to Know Java 43:12
Chapter 3 Setting Up Your Development Environment 11:42
Chapter 4 Moving Toward Object Oriented Programming 43:40
Chapter 5 Controlling the Flow of Your Program 33:11
Chapter 5 NumberPyramid demo 2:59
Chapter 6 Handling Exceptions and Debugging 24:54
Chapter 6 JUnit testing demo 4:12
Chapter 6 Debugging in Eclipse demo 3:53
Chapter 7 Delving Further into Object Oriented Concepts 35:20
Chapter 7 Interface demo 11:01
Chapter 8 Handling Input and Output 42:27
Chapter 9 Graphical User Interfaces (GUIs) 45:17
Principles of Database Management by Bart Baesens
# click the upper-left icon to select videos from the playlist
source: Bart Baesens 2015年9月7日
Chapter 1: Fundamental Concepts of Database Management 39:17
Chapter 2: Architecture and Classification of DBMSs 40:07
Chapter 3: Data models: hierarchical + CODASYL model 28:19
Chapter 3: Data models - ER model 24:22
Chapter 3: Data models - EER model 13:38
Chapter 3: Data models - relational model 45:07
Chapter 3: Data models - UML model 20:05
Chapter 4: Database Design - part 1 15:43
Chapter 4: Database Design - part 2 23:30
Chapter 4: Database Design - part 3 28:43
Chapter 5: Data Languages in a Relational Environment - part 1 24:32
Chapter 5: Data Languages in a Relational Environment - part 2 35:13
Chapter 5: Data Languages in a Relational Environment - part 3 32:17
Chapter 5: Data Languages in a Relational Environment - part 4 28:55
source: Bart Baesens 2015年9月7日
Chapter 1: Fundamental Concepts of Database Management 39:17
Chapter 2: Architecture and Classification of DBMSs 40:07
Chapter 3: Data models: hierarchical + CODASYL model 28:19
Chapter 3: Data models - ER model 24:22
Chapter 3: Data models - EER model 13:38
Chapter 3: Data models - relational model 45:07
Chapter 3: Data models - UML model 20:05
Chapter 4: Database Design - part 1 15:43
Chapter 4: Database Design - part 2 23:30
Chapter 4: Database Design - part 3 28:43
Chapter 5: Data Languages in a Relational Environment - part 1 24:32
Chapter 5: Data Languages in a Relational Environment - part 2 35:13
Chapter 5: Data Languages in a Relational Environment - part 3 32:17
Chapter 5: Data Languages in a Relational Environment - part 4 28:55
Introduction to Database Management Systems (archive) by Bart Baesens
# click the upper-left icon to select videos from the playlist
source: Bart Baesens 2013年9月24日/上次更新日期:2015年9月7日
Lecture series on principles of database management including:
Fundamental concepts of databases
Architecture and classification of DBMSs
hierarhical, Codaysl, ER, EER and relational model
Prof. dr. Bart Baesens holds a PhD in Applied Economic Sciences from KU Leuven University (Belgium). He is currently an associate professor at KU Leuven, and a guest lecturer at the University of Southampton (United Kingdom). He has done extensive research on data mining and its applications. For more information, visit http://www.dataminingapps.com
1: Fundamental Concepts In this lecture, the fundamental concepts behind databases, database technology, database management systems and data models are explained. Discussed topics entail: applications, definitions, file based vs. databased data management approaches, the elements of database systems and the advantages of database design. 1:00:16
2: Architecture and Classification of DBMS's 52:14
3-1: Data Models (hierarchical models, CODASYL, ER) 1:15:28
3-2: Data Models (EER model, relational model) 1:08:15
3-3: Data Models (UML) 30:45
source: Bart Baesens 2013年9月24日/上次更新日期:2015年9月7日
Lecture series on principles of database management including:
Fundamental concepts of databases
Architecture and classification of DBMSs
hierarhical, Codaysl, ER, EER and relational model
Prof. dr. Bart Baesens holds a PhD in Applied Economic Sciences from KU Leuven University (Belgium). He is currently an associate professor at KU Leuven, and a guest lecturer at the University of Southampton (United Kingdom). He has done extensive research on data mining and its applications. For more information, visit http://www.dataminingapps.com
1: Fundamental Concepts In this lecture, the fundamental concepts behind databases, database technology, database management systems and data models are explained. Discussed topics entail: applications, definitions, file based vs. databased data management approaches, the elements of database systems and the advantages of database design. 1:00:16
2: Architecture and Classification of DBMS's 52:14
3-1: Data Models (hierarchical models, CODASYL, ER) 1:15:28
3-2: Data Models (EER model, relational model) 1:08:15
3-3: Data Models (UML) 30:45
Supergravity, Strings, and Gauge Theory 2012 (CERN Winter School)
# click the up-left corner to select videos from the playlist
source: GraduatePhysics 2015年5月16日
Lectures at CERN Winter School on Supergravity, Strings, and Gauge Theory 2012 held at CERN, Feb6-10, 2012. Event website: http://indico.cern.ch/event/136806/
James Wells - Supersymmetric Phenomenology 1 of 4 55:17
James Wells - Supersymmetric Phenomenology 2 of 4 54:10
James Wells - Supersymmetric Phenomenology 3 of 4 1:01:13
James Wells - Supersymmetric Phenomenology 4 of 4 56:40
Marcos Marino Beiras - Localization at large N and AdS/CFT 1 of 4 1:03:25
Marcos Marino Beiras - Localization at large N and AdS/CFT 2 of 4 48:42
Marcos Marino Beiras - Localization at large N and AdS/CFT 3 of 4 1:02:28
Marcos Marino Beiras - Localization at large N and AdS/CFT 4 of 4 1:04:05
Tadashi Takayanagi - Entanglement Entropy and AdS/CFT 1 of 4 58:27
Tadashi Takayanagi - Entanglement Entropy and AdS/CFT 2 of 4 1:03:08
Tadashi Takayanagi - Entanglement Entropy and AdS/CFT 4 of 4 1:04:55
Tadashi Takayanagi - Entanglement Entropy and AdS/CFT 3 of 4 53:21
Aleandro Nisati & Sara Bolognesi - Higgs Searches 1:04:11
Claudia Wulz - Results from LHC (2012) 1:05:56
Luis Fernando Alday - Wilson Loops in Supersymmetric Gauge Theories 1 of 4 59:32
Luis Fernando Alday - Wilson Loops in Supersymmetric Gauge Theories 2 of 4 50:33
Luis Fernando Alday - Wilson Loops in Supersymmetric Gauge Theories 4 of 4 57:18
Luis Fernando Alday - Wilson Loops in Supersymmetric Gauge Theories 3 of 4 1:00:50
Rajesh Gopakumar - Higher Spins and AdS/CFT 1 of 4 1:03:17
Rajesh Gopakumar - Higher Spins and AdS/CFT 2 of 4 47:16
Rajesh Gopakumar - Higher Spins and AdS/CFT 3 of 4 1:06:49
Rajesh Gopakumar - Higher Spins and AdS/CFT 4 of 4 1:06:42
source: GraduatePhysics 2015年5月16日
Lectures at CERN Winter School on Supergravity, Strings, and Gauge Theory 2012 held at CERN, Feb6-10, 2012. Event website: http://indico.cern.ch/event/136806/
James Wells - Supersymmetric Phenomenology 1 of 4 55:17
James Wells - Supersymmetric Phenomenology 2 of 4 54:10
James Wells - Supersymmetric Phenomenology 3 of 4 1:01:13
James Wells - Supersymmetric Phenomenology 4 of 4 56:40
Marcos Marino Beiras - Localization at large N and AdS/CFT 1 of 4 1:03:25
Marcos Marino Beiras - Localization at large N and AdS/CFT 2 of 4 48:42
Marcos Marino Beiras - Localization at large N and AdS/CFT 3 of 4 1:02:28
Marcos Marino Beiras - Localization at large N and AdS/CFT 4 of 4 1:04:05
Tadashi Takayanagi - Entanglement Entropy and AdS/CFT 1 of 4 58:27
Tadashi Takayanagi - Entanglement Entropy and AdS/CFT 2 of 4 1:03:08
Tadashi Takayanagi - Entanglement Entropy and AdS/CFT 4 of 4 1:04:55
Tadashi Takayanagi - Entanglement Entropy and AdS/CFT 3 of 4 53:21
Aleandro Nisati & Sara Bolognesi - Higgs Searches 1:04:11
Claudia Wulz - Results from LHC (2012) 1:05:56
Luis Fernando Alday - Wilson Loops in Supersymmetric Gauge Theories 1 of 4 59:32
Luis Fernando Alday - Wilson Loops in Supersymmetric Gauge Theories 2 of 4 50:33
Luis Fernando Alday - Wilson Loops in Supersymmetric Gauge Theories 4 of 4 57:18
Luis Fernando Alday - Wilson Loops in Supersymmetric Gauge Theories 3 of 4 1:00:50
Rajesh Gopakumar - Higher Spins and AdS/CFT 1 of 4 1:03:17
Rajesh Gopakumar - Higher Spins and AdS/CFT 2 of 4 47:16
Rajesh Gopakumar - Higher Spins and AdS/CFT 3 of 4 1:06:49
Rajesh Gopakumar - Higher Spins and AdS/CFT 4 of 4 1:06:42
Supergravity, Strings, and Gauge Theory 2013 (CERN Winter School)
# click the up-left corner to select videos from the playlist
source: GraduatePhysics 2015年6月10日
Lectures at CERN Winter School on Supergravity, Strings, and Gauge Theory 2013 held at CERN, Feb4-8, 2013. Event website: http://indico.cern.ch/event/183290/
Vyacheslav Rychkov - The 3D Ising Model and Conformal Bootstrap 1 of 4 1:00:11
Vyacheslav Rychkov - The 3D Ising Model and Conformal Bootstrap 2 of 4 59:36
Vyacheslav Rychkov - The 3D Ising Model and Conformal Bootstrap 3 of 4 52:48
Vyacheslav Rychkov - The 3D Ising Model and Conformal Bootstrap 4 of 4 1:05:14
Andrew Neitzke - Topics in N=2 Gauge Theories 1 of 4 1:02:40
Andrew Neitzke - Topics in N=2 Gauge Theories 2 of 4 36:16
Andrew Neitzke - Topics in N=2 Gauge Theories 3 of 4 1:00:02
Andrew Neitzke - Topics in N=2 Gauge Theories 4 of 4 56:00
Gian Giudice - BSM Physics in Light of LHC at 8 TeV 1 of 4 52:12
Gian Giudice - BSM Physics in Light of LHC at 8 TeV 2 of 4 56:01
Gian Giudice - BSM Physics in Light of LHC at 8 TeV 3 of 4 1:02:52
Gian Giudice - BSM Physics in Light of LHC at 8 TeV 4 of 4 1:05:21
Raphael Bousso - Entropy and Complementarity in Gravity 1 of 4 1:04:46
Raphael Bousso - Entropy and Complementarity in Gravity 2 of 4 1:01:03
Raphael Bousso - Entropy and Complementarity in Gravity 3 of 4 1:04:43
Raphael Bousso - Entropy and Complementarity in Gravity 4 of 4 1:03:42
Albert De Roeck - Results from LHC (2013) 1:24:59
Sakura Schafer-Nameki - Tools for String Compactifications 1 of 4 1:02:34
Sakura Schafer-Nameki - Tools for String Compactifications 2 of 4 1:02:49
Sakura Schafer-Nameki - Tools for String Compactifications 4 of 4 54:12
Sakura Schafer-Nameki - Tools for String Compactifications 3 of 4 1:01:45
source: GraduatePhysics 2015年6月10日
Lectures at CERN Winter School on Supergravity, Strings, and Gauge Theory 2013 held at CERN, Feb4-8, 2013. Event website: http://indico.cern.ch/event/183290/
Vyacheslav Rychkov - The 3D Ising Model and Conformal Bootstrap 1 of 4 1:00:11
Vyacheslav Rychkov - The 3D Ising Model and Conformal Bootstrap 2 of 4 59:36
Vyacheslav Rychkov - The 3D Ising Model and Conformal Bootstrap 3 of 4 52:48
Vyacheslav Rychkov - The 3D Ising Model and Conformal Bootstrap 4 of 4 1:05:14
Andrew Neitzke - Topics in N=2 Gauge Theories 1 of 4 1:02:40
Andrew Neitzke - Topics in N=2 Gauge Theories 2 of 4 36:16
Andrew Neitzke - Topics in N=2 Gauge Theories 3 of 4 1:00:02
Andrew Neitzke - Topics in N=2 Gauge Theories 4 of 4 56:00
Gian Giudice - BSM Physics in Light of LHC at 8 TeV 1 of 4 52:12
Gian Giudice - BSM Physics in Light of LHC at 8 TeV 2 of 4 56:01
Gian Giudice - BSM Physics in Light of LHC at 8 TeV 3 of 4 1:02:52
Gian Giudice - BSM Physics in Light of LHC at 8 TeV 4 of 4 1:05:21
Raphael Bousso - Entropy and Complementarity in Gravity 1 of 4 1:04:46
Raphael Bousso - Entropy and Complementarity in Gravity 2 of 4 1:01:03
Raphael Bousso - Entropy and Complementarity in Gravity 3 of 4 1:04:43
Raphael Bousso - Entropy and Complementarity in Gravity 4 of 4 1:03:42
Albert De Roeck - Results from LHC (2013) 1:24:59
Sakura Schafer-Nameki - Tools for String Compactifications 1 of 4 1:02:34
Sakura Schafer-Nameki - Tools for String Compactifications 2 of 4 1:02:49
Sakura Schafer-Nameki - Tools for String Compactifications 4 of 4 54:12
Sakura Schafer-Nameki - Tools for String Compactifications 3 of 4 1:01:45
Philosophical Naturalism & Its Implications
source: Philosophical Overdose 2013年3月9日
Alex Rosenberg and Owen Flanagan discuss naturalism within philosophy and whether it eliminates all purpose, value, free will, and meaning within the world. Rosenberg argues that it does. By invoking Darwin, he argues that it not only eliminates such things in the natural universe, but in the human sphere as well. They also discuss some possible implications for ethics and politics. As an epistemological thesis, naturalism is the view that the empirical methods of natural science are the best or only ways of knowing about the world. As an ontological thesis, it rules out the existence of anything immaterial, incorporeal, or spiritual (e.g. minds, souls, gods, universals, forms, abstract entities, etc.). But what does this nationalism imply for things like consciousness, intentionality, morality, free will, the self, and meaning? These also seem difficult to fit within a purely mechanistic, natural material world which contains nothing but mindless, meaningless physical particles. Such issues are discussed here.
This is from Philosophy TV. Check them out at www.philostv.com.
Introductory Biology (Spring 2005) by Graham Walker at MIT
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source: MIT OpenCourseWare 2008年2月8日
MIT 7.014 Introductory Biology, Spring 2005
View the complete course: http://ocw.mit.edu/7-014S05
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu
The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material.
Lec 1 45:38
Lec 2 47:51
Lec 3 41:50
Lec 4 48:01
Lec 5 47:23
Lec 6 42:27
Lec 7 46:20
Lec 8 49:04
Lec 9 43:13
Lec 10 47:22
Lec 11 45:51
Lec 12 50:33
Lec 13 50:54
Lec 14 47:34
Lec 15 46:40
Lec 16 45:40
Lec 17 38:27
Lec 18 41:53
Lec 19 47:20
Lec 20 46:40
Lec 21 43:52
Lec 22 47:29
Lec 23 51:39
Lec 24 40:57
Lec 25 31:51
Lec 26 41:03
Lec 27 50:14
Lec 28 47:26
Lec 29 42:32
Lec 30 45:54
Lec 31 51:52
Lec 32 51:12
Lec 33 44:29
Lec 34 46:38
source: MIT OpenCourseWare 2008年2月8日
MIT 7.014 Introductory Biology, Spring 2005
View the complete course: http://ocw.mit.edu/7-014S05
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu
The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material.
Lec 1 45:38
Lec 2 47:51
Lec 3 41:50
Lec 4 48:01
Lec 5 47:23
Lec 6 42:27
Lec 7 46:20
Lec 8 49:04
Lec 9 43:13
Lec 10 47:22
Lec 11 45:51
Lec 12 50:33
Lec 13 50:54
Lec 14 47:34
Lec 15 46:40
Lec 16 45:40
Lec 17 38:27
Lec 18 41:53
Lec 19 47:20
Lec 20 46:40
Lec 21 43:52
Lec 22 47:29
Lec 23 51:39
Lec 24 40:57
Lec 25 31:51
Lec 26 41:03
Lec 27 50:14
Lec 28 47:26
Lec 29 42:32
Lec 30 45:54
Lec 31 51:52
Lec 32 51:12
Lec 33 44:29
Lec 34 46:38
Introduction to Biology (Fall 2004) by Robert A. Weinberg at MIT
# click the upper-left icon to select videos from the playlist
source: MIT OpenCourseWare 2008年1月17日
MIT 7.012 Introduction to Biology, Fall 2004
View the complete course: http://ocw.mit.edu/7-012F04
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu
The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material.
7.012 focuses on the exploration of current research in cell biology, immunology, neurobiology, genomics, and molecular medicine.
Lec 1 Introduction 36:18
Lec 2 Biochemistry 1 48:09
Lec 4 Biochemistry 3 50:16
Lec 5 Biochemistry 4 51:39
Lec 6 Genetics 1 51:01
Lec 7 Genetics 2 51:17
Lec 8 Genetics 3 51:21
Lec 9 Human Genetics 49:59
Lec 10 Molecular Biology 1 51:23
Lec 11 Molecular Biology 2 49:52
Lec 12 Molecular Biology 3 51:23
Lec 13 Gene Regulation 51:37
Lec 14 Protein Localization 45:11
Lec 15 Recombinant DNA 1 50:12
Lec 16 Recombinant DNA 2 50:34
Lec 17 Recombinant DNA 3 50:23
Lec 18 Recombinant DNA 4 50:23
Lec 19 Cell Cycle Signaling 48:32
Lec 20 Cancer 49:18
Lec 21 Virology Tumor Viruses 50:20
Lec 22 Immunology 1 47:20
Lec 23 Immunology 2 50:19
Lec 24 AIDS 50:03
Lec 25 Genomics 49:07
Lec 26 Nervous System 1 48:56
Lec 27 Nervous System 2 49:07
Lec 28 Nervous System 3 42:53
Lec 29 Stem Cells Cloning 1 50:30
Lec 30 Stem Cells Cloning 2 51:37
Lec 31 Molecular Medicine 1 51:14
Lec 32 Molecular Evolution 48:38
Lec 33 Molecular Medicine 2 50:14
Lec 34 Human Polymorphisms and Cancer Classification 48:09
Lec 35 Future of Biology 39:05
source: MIT OpenCourseWare 2008年1月17日
MIT 7.012 Introduction to Biology, Fall 2004
View the complete course: http://ocw.mit.edu/7-012F04
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu
The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material.
7.012 focuses on the exploration of current research in cell biology, immunology, neurobiology, genomics, and molecular medicine.
Lec 1 Introduction 36:18
Lec 2 Biochemistry 1 48:09
Lec 4 Biochemistry 3 50:16
Lec 5 Biochemistry 4 51:39
Lec 6 Genetics 1 51:01
Lec 7 Genetics 2 51:17
Lec 8 Genetics 3 51:21
Lec 9 Human Genetics 49:59
Lec 10 Molecular Biology 1 51:23
Lec 11 Molecular Biology 2 49:52
Lec 12 Molecular Biology 3 51:23
Lec 13 Gene Regulation 51:37
Lec 14 Protein Localization 45:11
Lec 15 Recombinant DNA 1 50:12
Lec 16 Recombinant DNA 2 50:34
Lec 17 Recombinant DNA 3 50:23
Lec 18 Recombinant DNA 4 50:23
Lec 19 Cell Cycle Signaling 48:32
Lec 20 Cancer 49:18
Lec 21 Virology Tumor Viruses 50:20
Lec 22 Immunology 1 47:20
Lec 23 Immunology 2 50:19
Lec 24 AIDS 50:03
Lec 25 Genomics 49:07
Lec 26 Nervous System 1 48:56
Lec 27 Nervous System 2 49:07
Lec 28 Nervous System 3 42:53
Lec 29 Stem Cells Cloning 1 50:30
Lec 30 Stem Cells Cloning 2 51:37
Lec 31 Molecular Medicine 1 51:14
Lec 32 Molecular Evolution 48:38
Lec 33 Molecular Medicine 2 50:14
Lec 34 Human Polymorphisms and Cancer Classification 48:09
Lec 35 Future of Biology 39:05
Mechanical - Manufacturing Processes II (IIT Kharagpur)
# click the up-left corner to select videos from the playlist
source: nptelhrd 2008年10月20日
Mechanical - Manufacturing Processes II by Prof. A. B. Chattopadhyay, Prof. A. K. Chattopadhyay and Prof. S. Paul, Department of Mechanical Engineering, IIT Kharagpur.
Lecture - 1 Instructional Objectives - I 1:01:11
Lecture - 2 Instructional Objectives - II 1:00:59
Lecture - 3 On Tool Geometry 1:03:18
Lecture - 4 Interrelations Among The Tool Angles 59:55
Lecture - 5 Mechanism of Chip Formation 54:10
Lecture - 6 Orthogonal and Oblique Cutting 1:00:43
Lecture - 7 Use of Chip Breaker in Machining 51:56
Lecture - 8 Machining Forces 1:00:02
Lecture - 9 Analytical and Experimental 52:26
Lecture - 10 Dynamometers for Measuring Cutting Forces 53:45
Lecture - 11 CTCEAC 57:53
Lecture - 12 CCTCFA 59:39
Lecture - 13 Concept of Machinability and its Improvement 53:43
Lecture - 14 Tool Life 55:13
Lecture - 15 Conventional Cutting Tool Maths 51:38
Lecture - 16 Advanced Tool Materials 53:19
Lecture - 17 Kinematics System of Centre Lathe 54:07
Lecture - 18 General Purpose Machine Tool Drills 58:30
Lecture - 19 Kinematic Systems and Operations 1:00:25
Lecture - 20 Configuration and Kinematic System 1:00:57
Lecture - 21 Mounting of jobs and Cutting Tools in Machine 1:00:24
Lecture - 22 Mounting of jobs and Cutting Tools in Machine 1:00:30
Lecture - 23a Construction,Operation and Tool Layout 59:16
Lecture - 23b Use of Attachments In Machine Tools 1:01:06
Lecture - 24 Forces Developing and Acting In Machine Tools 54:39
Lecture - 25 Estimation of Machining Time 1:01:43
Lecture - 26 Broaching - Principle Systems and Applications 1:00:44
Lecture - 27 Grinding Principle and Application 59:49
Lecture - 28 Abrasive Processes 59:50
Lecture - 29 Abrasive Processes (Grinding) 57:57
Lecture - 30 Superfinishing Processes 59:19
Lecture - 31 Production of Screw Threads 57:23
Lecture - 32 Gear Manufacturing 58:25
Lecture - 33 Jigs and Fixtures For Machine Shops 58:25
Lecture - 34 Design and Applications of Jigs and Fixtures 55:06
Lecture - 35 Non Traditional Manufacturing 1:00:40
Lecture - 36 Ultrasonic Machining 54:07
Lecture - 37 Water Jet Machining and Abrasive Water Jet 58:36
Lecture - 38 Electro - Chemical Machining 52:54
Lecture - 39 Electro - Discharge Machining 1:00:54
Lecture - 40 EBM and LBM 1:00:52
source: nptelhrd 2008年10月20日
Mechanical - Manufacturing Processes II by Prof. A. B. Chattopadhyay, Prof. A. K. Chattopadhyay and Prof. S. Paul, Department of Mechanical Engineering, IIT Kharagpur.
Lecture - 1 Instructional Objectives - I 1:01:11
Lecture - 2 Instructional Objectives - II 1:00:59
Lecture - 3 On Tool Geometry 1:03:18
Lecture - 4 Interrelations Among The Tool Angles 59:55
Lecture - 5 Mechanism of Chip Formation 54:10
Lecture - 6 Orthogonal and Oblique Cutting 1:00:43
Lecture - 7 Use of Chip Breaker in Machining 51:56
Lecture - 8 Machining Forces 1:00:02
Lecture - 9 Analytical and Experimental 52:26
Lecture - 10 Dynamometers for Measuring Cutting Forces 53:45
Lecture - 11 CTCEAC 57:53
Lecture - 12 CCTCFA 59:39
Lecture - 13 Concept of Machinability and its Improvement 53:43
Lecture - 14 Tool Life 55:13
Lecture - 15 Conventional Cutting Tool Maths 51:38
Lecture - 16 Advanced Tool Materials 53:19
Lecture - 17 Kinematics System of Centre Lathe 54:07
Lecture - 18 General Purpose Machine Tool Drills 58:30
Lecture - 19 Kinematic Systems and Operations 1:00:25
Lecture - 20 Configuration and Kinematic System 1:00:57
Lecture - 21 Mounting of jobs and Cutting Tools in Machine 1:00:24
Lecture - 22 Mounting of jobs and Cutting Tools in Machine 1:00:30
Lecture - 23a Construction,Operation and Tool Layout 59:16
Lecture - 23b Use of Attachments In Machine Tools 1:01:06
Lecture - 24 Forces Developing and Acting In Machine Tools 54:39
Lecture - 25 Estimation of Machining Time 1:01:43
Lecture - 26 Broaching - Principle Systems and Applications 1:00:44
Lecture - 27 Grinding Principle and Application 59:49
Lecture - 28 Abrasive Processes 59:50
Lecture - 29 Abrasive Processes (Grinding) 57:57
Lecture - 30 Superfinishing Processes 59:19
Lecture - 31 Production of Screw Threads 57:23
Lecture - 32 Gear Manufacturing 58:25
Lecture - 33 Jigs and Fixtures For Machine Shops 58:25
Lecture - 34 Design and Applications of Jigs and Fixtures 55:06
Lecture - 35 Non Traditional Manufacturing 1:00:40
Lecture - 36 Ultrasonic Machining 54:07
Lecture - 37 Water Jet Machining and Abrasive Water Jet 58:36
Lecture - 38 Electro - Chemical Machining 52:54
Lecture - 39 Electro - Discharge Machining 1:00:54
Lecture - 40 EBM and LBM 1:00:52
Broadband Networks by Karandikar (IIT Bombay)
# click the upper-left icon to select videos from the playlist
source: nptelhrd 2008年11月19日
Electronics - Broadband Networks by Prof. Karandikar, Department of Electrical Engineering, IIT Bombay.
Lecture - 1 Introduction to Broadband Networks 52:23
Lecture - 2 Qos in Packet Switching and ATM 53:21
Lecture - 3 ATM Networks 53:10
Lecture - 4 Effective Bandwidth - I 57:58
Lecture - 5 Effective Bandwidth - II 52:14
Lecture - 6 Traffic Descriptor in ATM 53:59
Lecture - 7 Calculus for QOS - I 54:14
Lecture - 8 Calculus For Qos - II 43:41
Lecture - 9 Packet Scheduling Algorithm Introduction 55:49
Lecture - 10 Fluid Fair Queueing and Weighted Fair Queueing 55:47
Lecture - 11 Virtual Time In Scheduling 53:29
Lecture - 12 Fairness of WFO and SCFO Scheduling Algorithms 53:35
Lecture - 13 Rate Proportional Servers 54:10
Lecture - 14 Latency Rate Servers - I 52:18
Lecture - 15 Latency Rate Servers - II And Delay Bounds 53:48
Lecture - 16 QOS In Best Effort Internet 56:44
Lecture - 17 TCP Congestion Control 52:20
Lecture - 18 Analysis of TCP 55:20
Lecture - 19 TCP Throughput 50:41
Lecture - 20 Buffer Management 53:24
Lecture - 21 IP Addressing Scheme 54:06
Lecture - 22 IP Addressing Lookup And Packet Classification 54:36
Lecture - 23 IP Over ATM 55:39
Lecture - 24 Multiple Label Switching(MPLS) 53:37
Lecture - 25 MPLS and Traffic Engineering 55:01
Lecture - 26 Optical Network and MPLS 50:03
Lecture - 27 Integrated Service Internet(IntServ) and RSVP 50:45
Lecture - 28 Differentiated Services Internet 55:08
Lecture - 29 Voice over IP 53:47
Lecture - 30 RTP 53:10
Lecture - 31 Metro Ethernet Access Networks 54:50
Lecture - 32 Metro Ethernet Access Networks 47:42
source: nptelhrd 2008年11月19日
Electronics - Broadband Networks by Prof. Karandikar, Department of Electrical Engineering, IIT Bombay.
Lecture - 1 Introduction to Broadband Networks 52:23
Lecture - 2 Qos in Packet Switching and ATM 53:21
Lecture - 3 ATM Networks 53:10
Lecture - 4 Effective Bandwidth - I 57:58
Lecture - 5 Effective Bandwidth - II 52:14
Lecture - 6 Traffic Descriptor in ATM 53:59
Lecture - 7 Calculus for QOS - I 54:14
Lecture - 8 Calculus For Qos - II 43:41
Lecture - 9 Packet Scheduling Algorithm Introduction 55:49
Lecture - 10 Fluid Fair Queueing and Weighted Fair Queueing 55:47
Lecture - 11 Virtual Time In Scheduling 53:29
Lecture - 12 Fairness of WFO and SCFO Scheduling Algorithms 53:35
Lecture - 13 Rate Proportional Servers 54:10
Lecture - 14 Latency Rate Servers - I 52:18
Lecture - 15 Latency Rate Servers - II And Delay Bounds 53:48
Lecture - 16 QOS In Best Effort Internet 56:44
Lecture - 17 TCP Congestion Control 52:20
Lecture - 18 Analysis of TCP 55:20
Lecture - 19 TCP Throughput 50:41
Lecture - 20 Buffer Management 53:24
Lecture - 21 IP Addressing Scheme 54:06
Lecture - 22 IP Addressing Lookup And Packet Classification 54:36
Lecture - 23 IP Over ATM 55:39
Lecture - 24 Multiple Label Switching(MPLS) 53:37
Lecture - 25 MPLS and Traffic Engineering 55:01
Lecture - 26 Optical Network and MPLS 50:03
Lecture - 27 Integrated Service Internet(IntServ) and RSVP 50:45
Lecture - 28 Differentiated Services Internet 55:08
Lecture - 29 Voice over IP 53:47
Lecture - 30 RTP 53:10
Lecture - 31 Metro Ethernet Access Networks 54:50
Lecture - 32 Metro Ethernet Access Networks 47:42
VLSI Design by Nandita Dasgupta (IIT Madras)
# click the upper-left icon to select videos from the playlist
source: nptelhrd 2009年1月11日
Electronics - VLSI Design by Dr. Nandita Dasgupta, Department of Electrical Engineering, IIT Madras.
Lecture - 1 Introduction on VLSI Design 49:02
Lecture - 2 Bipolar Junction Transistor Fabrication 48:48
Lecture - 3 MOSFET Fabrication for IC 50:13
Lecture - 4 Crystal Structure of Si 50:47
Lecture - 5 Crystal Structure contd 47:57
Lecture - 6 Defects in Crystal + Crystal growth 49:17
Lecture - 7 Crystal growth Contd + Epitaxy I 50:33
Lecture - 8 Epitaxy II - Vapour phase Epitaxy 52:33
Lecture - 9 Epitaxy III - Doping during Epitaxy 43:02
Lecture - 10 Molecular beam Epitaxy 48:22
Lecture - 11 Oxidation I - Kinetics of Oxidation 51:46
Lecture - 12 Oxidation II Oxidation rate constants 51:42
Lecture - 13 Oxidation III - Dopant Redistribution 50:37
Lecture - 14 Oxidation IV - Oxide Charges 44:14
Lecture - 15 Diffusion I - Theory of Diffusion 53:50
Lecture - 16 Diffusion II - Infinite Source 42:53
Lecture - 17 Diffusion III - Actual Doping Profiles 52:10
Lecture - 18 Diffusion IV Diffusion Systems 54:30
Lecture - 19 Ion - Implantation Process 54:54
Lecture - 20 Ion - Implantation Process 51:25
Lecture - 21 Annealing of Damages 51:48
Lecture - 22 Masking during Implantation 53:02
Lecture - 23 Lithography - I 52:43
Lecture - 24 Lithography - II 38:55
Lecture - 25 Wet Chemical Etching 54:10
Lecture - 26 Dry Etching 52:03
Lecture - 27 Plasma Etching Systems 51:59
Lecture - 28 Etching of Si,Sio2,SiN and other materials 52:11
Lecture - 29 Plasma Deposition Process 50:49
Lecture - 30 Metalization - I 50:44
Lecture - 31 Problems in Aluminium Metal contacts 49:00
Lecture - 32 IC BJT - From junction isolation to LOCOS 41:45
Lecture - 33 Problems in LOCOS + Trench isolation 54:34
Lecture - 34 More about BJT Fabrication and Realization 51:04
Lecture - 35 Circuits + Transistors in ECL Circuits 48:04
Lecture - 36 MOSFET I - Metal gate vs Self-aligned Poly-gate 56:36
Lecture - 37 MOSFET II Tailoring of Device Parameters 51:20
Lecture - 38 CMOS Technology 50:06
Lecture - 39 Latch - up in CMOS 40:37
Lecture - 40 BICMOS Technology 44:16
source: nptelhrd 2009年1月11日
Electronics - VLSI Design by Dr. Nandita Dasgupta, Department of Electrical Engineering, IIT Madras.
Lecture - 1 Introduction on VLSI Design 49:02
Lecture - 2 Bipolar Junction Transistor Fabrication 48:48
Lecture - 3 MOSFET Fabrication for IC 50:13
Lecture - 4 Crystal Structure of Si 50:47
Lecture - 5 Crystal Structure contd 47:57
Lecture - 6 Defects in Crystal + Crystal growth 49:17
Lecture - 7 Crystal growth Contd + Epitaxy I 50:33
Lecture - 8 Epitaxy II - Vapour phase Epitaxy 52:33
Lecture - 9 Epitaxy III - Doping during Epitaxy 43:02
Lecture - 10 Molecular beam Epitaxy 48:22
Lecture - 11 Oxidation I - Kinetics of Oxidation 51:46
Lecture - 12 Oxidation II Oxidation rate constants 51:42
Lecture - 13 Oxidation III - Dopant Redistribution 50:37
Lecture - 14 Oxidation IV - Oxide Charges 44:14
Lecture - 15 Diffusion I - Theory of Diffusion 53:50
Lecture - 16 Diffusion II - Infinite Source 42:53
Lecture - 17 Diffusion III - Actual Doping Profiles 52:10
Lecture - 18 Diffusion IV Diffusion Systems 54:30
Lecture - 19 Ion - Implantation Process 54:54
Lecture - 20 Ion - Implantation Process 51:25
Lecture - 21 Annealing of Damages 51:48
Lecture - 22 Masking during Implantation 53:02
Lecture - 23 Lithography - I 52:43
Lecture - 24 Lithography - II 38:55
Lecture - 25 Wet Chemical Etching 54:10
Lecture - 26 Dry Etching 52:03
Lecture - 27 Plasma Etching Systems 51:59
Lecture - 28 Etching of Si,Sio2,SiN and other materials 52:11
Lecture - 29 Plasma Deposition Process 50:49
Lecture - 30 Metalization - I 50:44
Lecture - 31 Problems in Aluminium Metal contacts 49:00
Lecture - 32 IC BJT - From junction isolation to LOCOS 41:45
Lecture - 33 Problems in LOCOS + Trench isolation 54:34
Lecture - 34 More about BJT Fabrication and Realization 51:04
Lecture - 35 Circuits + Transistors in ECL Circuits 48:04
Lecture - 36 MOSFET I - Metal gate vs Self-aligned Poly-gate 56:36
Lecture - 37 MOSFET II Tailoring of Device Parameters 51:20
Lecture - 38 CMOS Technology 50:06
Lecture - 39 Latch - up in CMOS 40:37
Lecture - 40 BICMOS Technology 44:16
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