Physics by Michel van Biezen

source: Michel van Biezen     2015年9月2日 / list compiled by CosmoLearning
Visit http://ilectureonline.com for more math and science lectures!

Chapter 0: General Intro (1 of 20) Standard SI for Length, Mass, and Time 4:56 In this video I will introduce the system of standard units that are commonly used in physics and other sciences.
0: General Intro (2 of 20) Dimensional Analysis (Unit Analysis) 7:57
0: General Intro (3 of 20) How to Determine Significant Figures 5:56
0: General Intro (4 of 20) How to Determine Significant Figures in Operations 8:35
0: General Intro (5 of 20) Introduction to Uncertainty in Measurements 6:51
0: General Intro (6 of 20) Finding Area with Uncertainty in Measurements 5:44
0: General Intro (7 of 20) Adding with Uncertainties in Measurements 0:58
0: General Intro (8 of 20) Subtracting with Uncertainties in Measurements 2:26
0: General Intro (9 of 20) Multiplying with Uncertainties in Measurements 4:39
0: General Intro (10 of 20) Dividing with Uncertainties in Measurements 3:30
0: General Intro (11 of 20) Uncertainties in Measurements - Squares and Roots 4:24
0: General Intro (12 of 20) How to Convert "Feet" to "Meters" 4:26
0: General Intro (13 of 20) How to Convert 1 Unit to Another Unit 7:11
0: General Intro (14 of 20) How to Estimate Number of Teachers in US 3:15
0: General Intro (15 of 20) Estimate Number of Blades of Grass on Soccer Field 2:47
0: General Intro (16 of 20) Understanding Coordinate Systems and Directions 2:23
0: General Intro (17 of 20) Basic Trigonometry for Physics - The Triangle 5:49
0: General Intro (18 of 20) Basic Trig for Physics - The Triangle (Sine) 3:55
0: General Intro (19 of 20) Basic Trig for Physics - The Triangle (Cosine) 2:07
0: General Intro (20 of 20) Basic Trig for Physics - The Triangle (Tangent) 3:02
Ch. 0.5: Standard Units (1 of 41) MKS (Meters, Kilograms, Seconds) 4:23
Ch. 0.5: Standard Units (2 of 41) Length in MKS, Imperial, and Maritime 4:46
Ch. 0.5: Standard Units (3 of 41) Maritime and Imperial Unit "Equivalence" 1 4:29
Ch. 0.5: Standard Units (4 of 41) Maritime and Imperial Unit "Equivalence" 2 4:49
Ch. 0.5: Standard Units (5 of 41) Standard Units in Mechanics 5:57
Ch. 0.5: Standard Units (6 of 41) Standard Units: Rotational Motion 4:21
Ch. 0.5: Standard Units (7 of 41) Stress and Strarin 2:51
Ch. 0.5: Standard Units (8 of 41) Units and Fluid 4:20
Ch. 0.5: Standard Units (9 of 41) The Wave Equation 5:03
Ch. 0.5: Standard Units (10 of 41) Sound 8:39
Ch. 0.5: Standard Units (11 of 41) Heat 3:19
Ch. 0.5: Standard Units (12 of 41) Specific Heat and Molar Heat Capacity 2:39
Ch. 0.5: Standard Units (13 of 41) Conduction, Thermal Conductivity, R-Rating 5:02
Ch. 0.5: Standard Units (14 of 41) The Ideal Gas Law 6:13
Ch. 0.5: Standard Units (15 of 41) Unit of Charge & Coulomb's Law 4:30
Ch. 0.5: Standard Units (16 of 41) The Electric Field 2:47
Ch. 0.5: Standard Units (17 of 41) Electric P.E. & Electrical Potential 6:24
Ch. 0.5: Standard Units (18 of 41) Electric Flux 4:15
Ch. 0.5: Standard Units (19 of 41) Capacitance 6:01
Ch. 0.5: Standard Units (20 of 41) Current, Resistivity, & Ohm's Law 7:18
Ch. 0.5: Standard Units (21 of 41) Magnetic Field 3:08
Ch. 0.5: Standard Units (22 of 41) Magnetic Flux 3:48
Ch. 0.5: Standard Units (23 of 41) Magnetic Field 2 7:18
Ch. 0.5: Standard Units (24 of 41) Mutual & Self Inductance 3:45
Ch. 0.5: Standard Units (25 of 41) Energy Stored in a Magnetic Field 4:33
Ch. 0.5: Standard Units (26 of 41) Energy in a L-C Circuit 3:43
Ch. 0.5: Standard Units (27 of 41) Reactance 6:23
Ch. 0.5: Standard Units (28 of 41) Power Dissipated in a Resistor 3:46
Ch. 0.5: Standard Units (29 of 41) Speed of Light 3:10
Ch. 0.5: Standard Units (30 of 41) E & M Waves 2:05
Ch. 0.5: Standard Units (31 of 41) The Poynting Vector 3:39
Ch. 0.5: Standard Units (32 of 41) Momentum Density of E&M Waves 4:34
Ch. 0.5: Standard Units (33 of 41) Flow Rate of E&M Momentum 4:33
Ch. 0.5: Standard Units (34 of 41) Energy in Special Relativity 7:00
Ch. 0.5: Standard Units (35 of 41) Energy & Momentum in a Photon 3:58
Ch. 0.5: Standard Units (36 of 41) The de Broglie Wavelength 4:45
Ch. 0.5: Standard Units (37 of 41) Planck Radiation (Black Body Radiation) 4:50
Ch. 0.5: Standard Units (38 of 41) Stefan Boltzmann Law 5:09
Ch. 0.5: Standard Units (39 of 41) What is an Electron Volt (eV)? 3:59
Ch. 0.5: Standard Units (40 of 41) What is the Decay Rate? 2:44
Ch. 0.5: Standard Units (41 of 41) What is the Atomic Mass Unit? 2:23
Mechanics: Vectors (1 of 21) What Is A Vector? 4:21
Mechanics: Vectors (2 of 21) Vector Notation 5:12
Mechanics: Vectors (3 of 21) Components And Magnitudes Of A Vector 5:31
Mechanics: Vectors (4 of 21) Finding The Components Of A Vector 5:19
Mechanics: Vectors (5 of 21) Adding Vectors Graphically - Parallelogram Method 2:15
Mechanics: Vectors (6 of 21) Adding Vectors Graphically - Tip-To-Toe Method 2:48
Mechanics: Vectors (7 of 21) Adding Vectors Numerically: Example 1 6:35
Mechanics: Vectors (8 of 21) Adding Vectors Numerically: Example 2 8:05
Mechanics: Vectors (9 of 21) Subtracting Vectors Graphically 1:44
Mechanics: Vectors (10 of 21) Subtracting Vectors Numerically 3:26
Mechanics: Vectors (11 of 21) Adding Force Vectors Numerically 6:14
Mechanics: Vectors (12 of 21) Product Of Vectors: Dot Product 5:58
Mechanics: Vectors (13 of 21) Product Of Vectors: Dot Product: Example 1 4:10
Mechanics: Vectors (14 of 21) Product Of Vectors: Dot Product: Example 2 5:52
Mechanics: Vectors (15 of 21) Product Of Vectors: Dot Product: Finding the Angle 5:55
Mechanics: Vectors (16 of 21) Product Of Vectors: Cross Product: Vector Product 9:04
Mechanics: Vectors (17 of 21) Product Of Vectors: Cross Product: Example 1 7:48
Mechanics: Vectors (18 of 21) Product Of Vectors: Cross Product: Example 2 5:33
Mechanics: Vectors (19 of 21) Finding The Direction Cosine 6:02
Mechanics: Vectors (20 of 21) Finding The Angle Between 2 Vectors 3:59
Mechanics: Vectors (21 of 21) Second Definition of the Dot Product 5:52

CHANDRASEKHAR LECTURE SERIES (2015, ICTS Bangalore)

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source: International Centre for Theoretical Sciences     2015年12月21日
PROGRAM URL: http://www.icts.res.in/program/NESP2015
DATES: Monday 26 Oct, 2015 - Friday 20 Nov, 2015
VENUE: Ramanujan Lecture Hall, ICTS Bangalore

DESCRIPTION :
This program will be organized as an advanced discussion workshop on some topical issues in nonequilibrium statstical physics. The aim of the program is to bring together active researchers to discuss outstanding problems. The main areas of focus in the workshop will be
Heat and particle transport in low dimensional systems.
Large deviation functions and fluctuations in non-equilibrium systems.
Localization and thermalization.
The workshop also aims to bring together researchers from diverse areas in statistical physics so as to initiate exchange of ideas and generate collaborations among them.
The program will consist of short lectures by invited participants on the first day of each week and the rest of the time will be available for discussions. There will also be some pedagogic lectures on the following topics
Localization and thermalization (David Huse, week 1)
Fluctuating hydrodynamics (Herbert Spohn, week 1)
Macroscopic fluctuation theory (Giovanni Jona-Lasinio, week 2)
Exact results in heat conduction (Cedric Bernardin and Stefano Olla, week 2)
ORGANIZERS :
Cedric Bernardin, Abhishek Dhar, Joel Lebowitz, Stefano Olla, Sanjib Sabhapandit, Keiji Saito and Herbert Spohn
CHANDRASEKHAR LECTURE SERIES

Introduction to Fluctuating Hydrodynamics Theory in one-dimensional systems by Herbert Spohn 1:43:37
Random Matrix Theory and the dynamics of nonequilibrium interfaces by Herbert Spohn 1:18:21
Cross Magneto-Mechanical Effects in Amorphous Solids with Magnetic Degrees of Freedom 1:00:57
Plasticity and Material Failure in Amorphous Solids(Chandrasekhar Lecture II) by Itamar Procaccia 1:15:47
Micro Big-Bangs and Quantized Vortex Dynamics in Turbulent Quantum Fluids 1:08:50
Quantum entanglement in macroscopic matter (Lecture 3) 1:20:16
Quantum entanglement in macroscopic matter (Lecture 2) 1:22:05
Quantum entanglement in macroscopic matter (Lecture 1) 1:25:54
New Dialogues: Entanglement, Holography and Renormalization (Chandrasekhar Lecture Series) 1:13:34
Holographic Entanglement Entropy (Chandrasekhar lecture II) 1:33:15
Entanglement & C-theorems (Chandrasekhar lecture III) - part 1 1:07:30
Entanglement & C-theorems (Chandrasekhar lecture III) - part 2 46:02

Indian Statistical Physics Community Meeting 2016 (ICTS Bangalore)

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source: International Centre for Theoretical Sciences    2016年3月9日
URL: https://www.icts.res.in/discussion_me...
DATES Friday 12 Feb, 2016 - Sunday 14 Feb, 2016
VENUE Ramanujan Lecture Hall, ICTS Bangalore
This is an annual discussion meeting of the Indian statistical physics community which is attended by scientists, postdoctoral fellows, and graduate students, from across the country, working in the broad area of statistical physics.
This meeting will cover all the 8 Topics covered at STATPHYS meetings, namely:
1) General and mathematical aspects
rigorous results, exact solutions, probability theory, stochastic field theory, phase transitions and critical phenomena at equilibrium, information theory, optimization, etc.
2) Out-of-equilibrium aspects
driven systems, transport theory, relaxation and response dynamics, random processes, anomalous diffusion, fluctuation theorems, large deviations, out-of-equilibrium phase transitions, etc.
3) Quantum fluids and condensed matter
strongly correlated electrons, cold atoms, graphene, mesoscopic quantum phenomena, fractional quantum Hall effect, low dimensional quantum field theory, quantum phase transitions, quantum information, entanglement, Lüttinger liquid, spin liquid, etc.
4) Disordered and glassy systems
percolation, spin glasses, structural glasses, metallic glasses, jamming, glass transition, algorithmic problems, etc.
5) Biological physics
molecular motors, single and multicellular dynamics, bacteria, swimmers, spatio-temporal organization, biological membranes, biopolymer folding, genomics, biological networks, evolution models, evolutionary game theory, etc.
6) Soft matter
simple and complex fluids, active matter, molecular and ionic fluids,wetting, self-assembly, polymers, gels, liquid crystals, microemulsions, foams, membranes, colloids, granular materials, etc.
7) Nonlinear physics
dynamical systems, chaos (classical and quantum), pattern formation, chemical reactions, hydrodynamic instabilities, turbulence (classical and quantum), etc.
8) Interdisciplinary and complex systems
networks and graphs, epidemics, econophysics, social phenomena, traffic flow, ecology, etc.

Continuously Varying Critical Exponents Beyond Weak Universality by Pradeep Kumar Mohanty  17:28
Universality of efficiency at maximum work with finite reservoirs by Ramandeep S. Johal 13:33
Quantum Simulation of Majorana Fermion Mode , Dirac Fermion Mode... by Sujit Sarkar 14:50
Open quantum systems: a comparision between Redfield and Lindblad master equations by Abhishek Dhar 17:03
Correlations and fluctuations in RAP with a driven tracer by Anupam Kundu 16:08
Fluctuation-dominated Phase Ordering: Order Parameter Scaling By Mustansir Barma 19:00
Poster Flash Talks 29:28
[private video]
Stochastic resonance and ratchet effect in sinusoidal... by Mangal Chandra Mahato 17:12
Symmetric exclusion processes on a ring with moving defects by Punyabrata Pradhan 15:29
Dynamical transition in the temporal relaxation of stochastic by Sanjib Sabhapandit
Diffusion with stochastic power-law resetting by Apoorva Nagar 13:18
Explorations of the statistical properties of particles in turbulent flows by Rahul Pandit 12:33
Intermittency in Turbulence: Time to look at Fourier space? By Samriddhi Sankar Ray 16:26
Periodically driven closed quantum systems: periodic steady state By Amit Dutta 19:13
Separating many-body localized phase from Anderson localized phase... by Dibyendu Roy 16:42
Placing the dilute magnetic semiconductors on the Zaanen-Sawatzky-Allen... by Priya Mahadevan 14:18
Lyapunov Spectral Analysis of Coupled Oscillators By Anandamohan Ghosh 15:58
Interacting Chaotic Systems: Universality in Spectral-Fluctuation By Shashi C. L. Srivastava 16:18
Leaky Fermi Accelerators By Kushal Shah 15:03
A finite-time exponent for the random Ehrenfest gas By Sudhir R. Jain 17:13
Uncovering universality in the entanglement of strongly chaotic subsystems by Arul Lakshminarayan 19:58
Transdifferentiation and oscillatory states in gene regulatory networks by Mithun Kumar Mitra 18:10
Critical dynamics of the jamming transition by Kavita Jain 14:13
Random walks and extreme events on networks by M. S. Santhanam 14:48
Networks of agents with preferred degree by Deepak Dhar 15:41
[private video]
Kinetics of Vapor-Solid Phase Transition by Subir K. Das 16:58
Microscopic Origin of Temporal Heterogeneities in Translational Dynamics... by Biswaroop Mukherjee 14:42
Analytical form of forces in hydrophobic collapse by Jaydeb Chakrabarti 17:05
Molecular mechanism of water permeation in a helium impermeable... by Prabal K Maiti 14:17
Extended-collapsed transition in charged polymers: Origin of attractive forces by Rajesh Ravindran 14:34
Effects of dissolved ions on spatial and temporal correlations of liquid water by Vani Vemparala 16:56
Continuum "xy- model" on deformable surfaces: equilibrium... by Yashodhan Hatwalne 16:19
Satya Majumdar 16:07
[private video]
Dynamics of entanglement generation in driven integrable systems by Arnab Sen 16:30
Conservative perturbation theory for nonconservative systems By Sagar Chakraborty 15:28
Mode-hopping in entrained biological oscillator by Sandeep Krishna 16:22
Growing length scale in the short-time dynamics of glass-forming liquids by 5 Chandan Dasgupta 16:37
Onset of flow in glasses under applied shear by Pinaki Chaudhur 13:55
Structure and Forces in Shear Jammed Sphere Packings by Srikanth Sastry 17:18
Asymptotic properties of Kalman filter by Amit Apte 16:40
Is there a discontinuous transition underlying the growth and shrinkage..... by Dibyendu Das 15:11
Force generation by polymerizing filaments by Manoj Gopalakrishnan 16:57
Actin filaments growing against a barrier with fluctuating shape by Sakuntala Chatterjee 17:39
Scale Invariance in Biological Patterns by Vijaykumar Krishnamurthy 17:35
Periodically driven DNA: Theory and simulation by Sanjay Kumar 15:58
Anomalous conductance fluctuations in electrically stressed bilayer graphene by Arindam Ghosh 14:21
Generalized Fluctuation Theorem for Dissipative Cyclotron Motion...... by Sushanta Dattagupta 19:32
Multicritical melting of three-sublattice order in frustrated easy-axis ...... by Kedar Damle 11:15
Quantum critical Mott transitions in a bilayer Kondo insulator.....by N. S. Vidhyadhiraja 11:37
Obtaining Quantum spin liquid by gauging Deconfined quantum criticality by Subhro Bhattacharjee 18:00
Boosted one dimensional superfluids by Subroto Mukerjee 16:58
Protein Collapse and Folding by Govardhan Reddy 17:45
Counting RNA Structures by Nivedita Deo 18:13
Bacterial Twitching Motility in presence of obstacles. by Rahul Marathe 20:18
Catch bond mechanism in Dynein motor driven collective transport by Sudipto Muhuri 15:45
Full Current Statistics for a Disordered Open Exclusion Process by Arvind Ayyer 16:50

2017 ITAMP/B2 AMO Physics Winter Graduate School

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source: ITAMP Physics    2017年1月25日
2017 Winter Graduate School on Atomic, Molecular and Optical Physics - Quantum Information Fundamentals and Applications
At Biosphere 2 Conference Center in Arizona, January4-11, 2017.
Organized by Pierre Meystre, Emeritus Regents Professor of Physics and Optical Sciences, University of Arizona and Editor in Chief Physical Review, Hossein Sadeghpour, Senior Scientist and Director of ITAMP, Harvard-Smithsonian CFA and Arvinder Sandhu, Professor of Physics, University of Arizona.

Steve Girvin Lecture I 56:05 (Yale University) “Introduction to Circuit QED”
Mikhail Lukin - Lecture I 1:00:57
Mikhail Lukin Cont Lect I 6:08
Wolfgang Lechner Lecture I 1:08:02
Susanne Yelin Lecture I 1:02:02
Mikhail Lukin Lecture II 1:03:23
[private video]
Susanne Yelin Lecture II 1:00:26
Mikhail Lukin lecture III 1:09:23
Wolfgang Lechner Lecture II 1:04:41
Steve Girvin Lecture III 1:01:50
Wolfgang Lechner Lecture III 1:05:26
Chris Monroe lecture I 1:06:47
Susanne yelin Lecture III 1:03:38
Chris Monroe lecture III 1:12:56
Chris Monroe - Lecture II 1:13:55
Seth Lloyd lecture I 1:30:03
Seth Lloyd Lecture II 31:45
Seth Lloyd - Lecture III 41:48
Hannes Pichler 1:10:57
Matthias Troyer lecture I 45:04
Seth Lloyd Lecture IV 1:39:48
Matthias Troyer LectureI II 1:19:34
Matthias Troyer Lecture III  1:02:39

2015 ITAMP/B2 AMO Physics Winter Graduate School

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source: ITAMP Physics    2015年2月12日
Introduction of 2015 ITAMP/B2 AMO Physics Winter Graduate School January 6-13, 2015, "Hybrid Quantum Systems". Organized by Pierre Meystre, Regents Professor of Physics and Optical Sciences, University of Arizona and Hossein Sadeghpour, Senior Scientist and Director of ITAMP, Harvard-Smithsonian CFA.

introduction to 2015 ITAMP/B2 AMO Physics Winter Graduate School 11:01
Lecture I: January 7, 2015 Jorg Schmiedmayer, TU Wien 1:12:35
January 7, 2015 Lecture I Greg Fuchs, Cornell University 56:48
January 7, 2015 Lecture I Michael Koehl, UBonn 29:00
January 7 2015 Lecture I Paola Cappellaro, MIT 1:06:32
January 8, 2015 Lecture II Paola Cappellaro, MIT 1:13:37
January 8, 2015 Lecture II Michael Koehl, UBonn 1:15:58
January 8, 2015 Lecture II Klemens Hammerer, Leibniz 59:08
January 8, 2015 Lecture II Jorg Schmiedmayer, TU Wien 1:08:04
January 8, 2015 Lecture II Greg Fuchs, Cornell University 55:23
January 9 2015 Lecture III Paola Cappellaro, MIT 1:05:31
January 9, 2015 Lecture III Klemens Hammerer, Leibniz 1:02:42
January 9, 2015 Lecture I Keith Schwab, Caltech 52:29
January 9, 2015 Lecture III Michael Koehl, UBonn 57:05
January 10, 2015 Lecture I Mukund Vengalattore, Cornell University 1:01:56
January 10, 2015 Lecture II Keith Schwab, Caltech 1:09:46
January 10, 2015 Lecture III Jorg Schmiedmayer, TU Wien 1:05:59
January 10, 2015 Lecture III Greg Fuchs, Cornell University 1:07:07
January 10, 2015 Lecture I Markus Aspelmayer, University of Vienna 1:14:36
January 11, 2015 Lecture II Markus Aspelmayer, University of Vienna 1:15:00
January 11, 2015 Lecture II Mukund Vengalattore, Cornell University 1:08:21
January 12, 2015 Lecture III Mukund Vengalattore, Cornell University 1:11:51
January 12, 2015 Lecture III Markus Aspelmayer, University of Vienna 1:32:17

2016 ITAMP/B2 AMO Physics Winter Graduate School

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source: ITAMP Physics   2016年4月6日
2016 ITAMP/B2 Atomic, Molecular and Optical (AMO) Physics Winter Graduate School. Held at the B2 Institute, January 4-12, 2016.

Philip Bucksbaum 1:00:02 Philip Bucksbaum, Stanford PULSE Institute, Stanford University, “Lecture 2: X-ray free electron laser basics, and especially how they produce femtosecond to attosecond pulses and the highest focust electromagnetic fields”. Saturday, January 9, 2016
Ken schaffer 3 1:20:34
Lars Madsen, Friday, January 8, 2016 1:00:02
Esry lecture2 Friday 1:10:38
Pcorkum lecture3 Friday 1:22:59
Anthony Starace Lecture II 1:00:02
Margaret Murnane Thursday Lecture 3 - 2016 52:47
B Esry Thursday Lecture 2016 1:08:22
Buckbaum Lecture1 1:00:02
Kenneth SchaferLecture II 1:00:02
Margaret Murnane Lecture 2 44:58
Margaret Murnane Lecture 1 1:00:02
Paul Corkum lecture 2 1:12:33
Linda Young I 1:00:02
Kenneth Schafer Lecture I 1:25:45
Paul Corkum-lecture 1 1:19:41
Philip Bucksbaum 1:14:18
Brett Esry Monday Lecture 1 -2016 1:00:02
Esry Monday continued 25:13
Lars Madsen 1:00:02
CorkumLect1Part1 30:01
CorkumLect1Part2 30:01
CorkumLect1Part3 19:40
SchaferLect1Part1 30:01
SchaferLect1Part2 30:01
SchaferLect1Part3 25:43
StaraceLect1Part2 30:01
MadsenLect1Part1 30:01
MadsenLect1Part2 30:01
YoungLecture1Part1 30:01
YoungLect1Part2 30:01
MurnaneLect1Part1 30:01
MurnaneLect1Part2 30:01
CorkumLect2Part1 30:01
CorkumLect2part2 30:01
CorkumLect2Part3 12:31
YoungLect2Part1 30:01
YoungLect2Part2 24:44
MurnaneLect2Part1 30:01
MurnaneLect2Part2 14:57
SchaferLect2Part1 30:01
SchaferLect2Part2 30:01
EsryLect1Part1 30:01
EsryLect1Part2 30:01
EsryLect1Part3 8:20
StaraceLect2Part1 30:01
StaraceLect2Part2 30:01
MurnaneLect3Part1 30:01
MurnaneLect3Part2 22:46
BucksbaumLect1Part1 30:01
BuckbaumLect1Part2 30:01
SchaferLect3Part1 30:01
SchaferLect3Part2 30:01
SchaferLect3Part3 20:33
CorkumLect3Part1 30:01
CorkumLect3Part2 30:01
CorkumLect3Part3 22:57
MadsenLect2Part1 30:01
MadsenLect2Part2 30:01
EsryLect2Part1 30:01
EsryLect2Part2 30:01
EsryLect2Part3 10:36
BucksbaumLect2Part1 30:01
BucksbaumLect2Part2 30:01
MadsenLect3Part1 30:01
MadsenLect3Part2 29:29
StaraceLect3Part1 30:01
StaraceLect3Part2 19:09
YoungLect3Part1 30:01
YoungLect3Part2 21:13
BucksbaumLect3Part1 30:01
BucksbaumLect3Part2 30:01
BucksbaumLect3Part3 14:16
EsryLect3Part1 30:01
EsryLect3Part2 30:01

Saturday Morning Physics - U of Michigan Lecture Series (2006-2010)

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source: University of Michigan     上次更新日期：2015年2月4日

2010 Winter, The Oldest Hominoids 21:46
2010 Winter, Hurricanes and Tornadoes and Floods! Oh My! 22:14
2009 Fall, Protein, Fat or Politics? Big Game Hunting in Human Evolution 59:19
2009 Fall, The Museum of Zoology, A Priceless Collection of Life 59:28
2009 Fall, How Fast is Evolution? 57:53
2009 Fall, Mirrors, Anti Matter & the Left Handed World 59:11
2009 Winter, Milky Way Galaxy: Keeper of the Darkest Secrets of the Universe 59:02
2009 Winter, Amateur Astronomy: From Ann Arbor to the Universe 59:45
2009 Winter, Building Planets: When & How? 47:34
How Did Earth Get Its Water? - University of Michigan Lecture 44:33
2009 Winter, Four Hundred Years of Cosmic Discovery 59:48
2009 Winter, Black Holes Along the Cosmic Time 58:00
2008 Fall, Buddhism and Science 53:07
2008 Fall, The Large Hadton Collider: The World's Most Powerful Particle Accelerator 59:39
2008 Fall, A Current Perspective on Great Lakes Water Levels 53:40
2008 Fall, The LHS: Revealing the Building Blocks of Our Universe 59:44
2008 Fall, Superstring Cosmology or How I leaned to stop worrying and love inflation 33:16
2008 Fall, A Physicist Looks at Brain Tumors 57:51
2008 Winter, Encounters with Modern Physics 59:55
2008 Winter, Modeling the Cosmos and Observations and Simulations 47:01
2008 Winter, String Theory: What is it good for? 51:14
2008 Winter, What is String Theory Anyway? 49:03
Amplified Noise 58:38
2006 Winter, Evolution of Robotics 52:30
2006 Winter, Scientific Uncertainty and Public Policy: Moving on Without All the Answers 59:45
2006 Winter, How Old: The Physics of Dating Artifacts 59:49
2006 Winter, Natural Selection and the Regulation of Defense Responses 40:44
2006 Winter, Genomes and Evolution 59:32
2006 Winter, Evolution of Infectious Diseases: from Host-Parasite Arms Races to Superbugs 57:36
2006 Winter, Nanomedicine A New Frontier for Physics 47:42
2006 Winter, Evolution: The Fossil Record and the Origin of Whales 59:48
2007 Fall, Current Treatments and Novel Strategies for Cardiovascular Disease 52:33
2007 Fall, Physics (and Chemistry and Biology...) of Mastodons and Mammoths 59:52
2007 Fall, Muscling in on Tissue Engineering 45:42
[私人影片]
2007 Winter, The Music of Quantum Physics 58:34
2007 Winter, Taking the Plunge: The Physics of Roller Coasters 59:43
2007 Winter, Cosmic Rays 59:56
2007 Winter, Future of Electronics 58:44
2007 Winter, Weapons of Mass Destruction: Biological Weapons 1:00:03
2007 Fall, Lightning Lights: the Mercury Folat Lighthouse 52:57
2007 Fall, Fresnel: Before and After 53:06
2007 Fall, It's All About Light! 59:17
2007 Fall, We All Need Just the Right Amount of Exposure 59:03
2007 Fall, How to Keep Your Focus; the Physics of Camera Lenses 55:59
2007 Winter, The Physics behind Music 54:49
2007 Winter, Weapons of Mass Destruction: Nuclear Weapons 58:58
2008 Winter, Taking the Plunge: The Physics of Roller Coasters 59:31
2008 Winter, Dark Energy and the Accelerating Universe 54:46
2008 Winter, Cosmic Rays 59:49
2007 Winter, Chemical Agents as Triggers of Neurological Disease 57:22
2008 Fall, Tricks with Light: How Microscopy Reveals the Biological World 56:29

General Physics I (Fall 2016, Bilkent U) by Mehmet Özgür Oktel

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source: BilkentUniversitesi     上次更新日期：2016年12月15日
General Physics I - PHYS 101
Standards and units; vectors and coordinate systems; kinematics; dynamics; work, energy and power; conservation of energy; dynamics of system of particles; collisions; rotational kinematics and dynamics; oscillations.
http://www.fen.bilkent.edu.tr/~oktel/

Lecture 01 Introduction  45:39
Lecture 02 Units and Significant Figures  42:19
Lecture 03 One dimensional motion  41:50
Lecture 04 Examples of 1D motion 34:48
Lecture 05 Vectors  53:53
Lecture 06 Motion in 3 dimensions  36:02
Lecture 07 Kinematics Examples  37:46
Lecture 08 Newton's Law  50:50
Lecture 09 Simple examples of Dynamics  46:54
Lecture 10 Dynamics of Uniform Circular Motion 37:56
Lecture 11 Friction Forces  53:06
Lecture 12 Exam Review  38:53
Lecture 13 Examples of Dynamics 39:15
Lecture 14 Gravitational Force  50:50
Lecture 15 Kepler's Laws  37:25
Lecture 16 Work Energy Theorem  39:47
Lecture 17 Potential Energy  47:35
Lecture 18 Gravitational Potential Energy 39:20
Lecture 19 Power  33:20
Lecture 20 Examples of Energy Conservation  41:13
Lecture 21 Momentum  39:06
Lecture 22 Collisions  39:34
Lecture 23 Center of Mass  49:37
Lecture 24 Examples of Momentum Conservation  35:16
Lecture 25 Rotational Quantities  44:30
Lecture 26 Moment of Inertia  47:53
Lecture 27 Rolling without Slipping  51:11
Lecture 28 Exam Review 35:14
Lecture 29 Examples of Rotational Motion  37:12
Lecture 30 Angular Momentum  49:15
Lecture 31 Angular Momentum Conservation  36:15
Lecture 32 Angular Momentum Examples  50:53
Lecture 33 Translational and Rotational Motion  32:54
Lecture 35 37:14 Pendulum Dynamics
Lecture 34 34:20 Oscillations
Lecture 36 43:48 Harmonic Approximation
Lecture 37 36:55 Damped Oscillations
Lecture 38 38:02 Final Review I
Lecture 39 45:26 Final Review II

General Physics II (Spring 2016, Bilkent U) by Mehmet Özgür Oktel

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source: BilkentUniversitesi    2016年2月1日
http://www.fen.bilkent.edu.tr/~oktel/
General Physics II - PHYS 102: Charge and matter; electric field and Gauss' law; DC circuits; magnetic field; Ampere's law; Faraday's law; inductance; magnetic properties of matter; Maxwell's equations.

Lecture 01 Electric Charge 38:41
Lecture 02 Electric Field  42:16
Lecture 03 Continuous Charge Distribution 43:48
Lecture 04 Electric Field by Integration 42:18
Lecture 05 Electric Flux  34:06
Lecture 06 Gauss' Law 43:13
Lecture 07 Applications of Gauss' Law 40:43
Lecture 08 Conductors 46:44
Lecture 09 Electric Potential Energy 37:15
Lecture 10 Electric Potential Energy  40:52
Lecture 11 Potential Examples  35:43
Lecture 12 Dipole Potential  35:26
Lecture 13 Capacitors  48:39
Lecture 14 Energy Storage  46:37
Lecture 15 Dielectrics  34:42
Lecture 16 Exam Review  38:53
Lecture 17 Current and Resistance  40:23
Lecture 18 Kirchoff's Laws  43:31
Lecture 19 RC Circuits  38:37
Lecture 20 Magnetic Field  38:28
Lecture 21 Magnetic Forces  45:45
Lecture 22 Torque on a Current Loop  40:05
Lecture 23 Sources of Magnetic Field  37:44
Lecture 24 Ampere's Law  31:24
Lecture 25 Force between Current Carrying Wires  45:11
Lecture 26 Solenoid, Toroid  47:02
Lecture 27 Magnetic Field Examples  28:00
Lecture 28 Biot-Savart Law Examples  35:16
Lecture 29 Exam Review  42:52
Lecture 30 Magnetic Induction 35:55
Lecture 31 Faraday's Law  37:47
Lecture 32 Inductance  50:12
Lecture 33 Inductor  41:35
Lecture 34 LC and RLC circuits 42:27
Lecture 35 AC circuit  38:03
Lecture 36 RLC circuit 48:02
Lecture 37 Displacement Current  38:38
Lecture 38 Maxwell's Equations 51:06
Lecture 39 Poynting Vector  41:48
Lecture 40 Final Review 42:17

General Physics 2 (Summer 2009, UMKC) by Robert Riggs

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source: UMKC     2009年6月11日
Physics 220 (Summer 2009, UMKC) by Robert Riggs
The course is the second semester general physics course (algebra-based). Topics covered are electricity and magnetism, electromagnetic waves, and light. The last third of the course introduces to optics, special relativity, and quantum mechanics.

1: Course Introduction, Syllabus, Electric Charge & Electric Induction 1:13:56
Lecture 2 1:12:54
Lecture 3 1:16:43
Lecture 4 1:16:10
Lecture 6 1:23:11
lecture7 1:08:52
Lecture8 1:50:25
Lecture 10 55:49
Lecture 11 1:11:51
Lecture13 1:18:27
Lecture 14 51:14
Lecture 16 1:28:32
Lecture 17 1:08:26
Lecture 18 54:34
Lecture 20 58:07
Lecture 21 1:06:28
Lecture 22 1:05:13
Lecture 26 32:56

Physics (Spring 2010, UMKC) by Robert Riggs

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source: UMKC     2010年1月19日
Physics 220 (Spring 2010, UMKC) by Robert Riggs

Lecture 1 Professor Robert Riggs discusses the syllabus and introduces the concept of charge  41:13
2 - Charging by contact, Inducation & Coulomb's Law 41:27
3 - Electric Field 40:23
4 - Gauss's Law, Electric Potential & Electric Potential Energy 50:08
5 - Electric Potential 48:41
6 - Capacitance, Dielectrics, Series & Parallel 49:22
8 - Ohm's Law, Homework Capacitance, Power, Current, Energy & Resistance 41:33
9 - Ohm's Law, Energy, Internal Resistance, Into to Circuits 5:59
10 - Exam Review 24:17
11 - Resistance in Series & Parallel, Kirchoff's Rules 45:51
12 - Kirchoff's Rules, RC Time Constant 40:44
13 - Introduction to Magnetism - Roller Coaster Demo 38:36
14 - Magnetic Force on a charge, Mass Spectrometer 45:26
15 - Current creating magnetic field, straight wire, coil & solenoid 41:35
16 - Magnetic force on a current carrying wire 43:42
17 - EMf, Transformers, Back EMf 42:53
18 - Transformers, Back EMf 42:56
19 - "Arcs and Sparks" by Mike Kelly 40:34
20 - Exam Review 28:27
21 - Electromagnetic Waves, Impedence, AC Circuits 40:35
22 - AC Circuits, Capacitive & Inductive Reactance 44:29
23 - Law of Reflection 39:50
24 44:05
25 - Index of Refraction, Critical Angle, Mirror Equation 41:07
26 - Fun with Focal Points 46:58
29-Thin Film Interference 34:52
30 - Thin Film Redeux 32:53
31 - Diffraction and Polarization 45:29
27 28:23
28 - Interferences,Young's Double Slit 38:54
32 - Human Eye, Resolving Power, Brian Cox on LRC Collider 40:43
33 - Special Relativity Introduction, Time Dilation, Contraction 24:50
34 - Special Relativity 34:42
36 - Relative Velocities 36:38

Physics (UMKC) by Robert Riggs

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source: UMKC    2009年8月28日
Physics 210 (UMKC) by Robert Riggs

Lecture 1 - Textbook introduction & Syllabus 43:47
2 - Measurement, Units, Unit Analysis, Sig-Figs and Problem Solving 1:11:24
Lecture 3 - Velocity, Speed, Displacement, Distance & Acceleration 54:25
Lecture 4 - Kinematic Equations & Free Fall 50:00
Lecture 5 - Free Fall, Vector Components, Vector Addition 1:04:11
Lecture 6 - Vectors & an Intro to Projectile Motion 1:06:34
Lecture 7 - Projectile Motion from a horizontal cliff 1:02:38
Lecture 8 - Introduction to Forces: Newtons Law I & Newtons Law II 1:03:11
Lecture 9 - Newton's Third Law 1:03:40
Lecture - 10 - Free Body Diagrams & Friction 1:03:49
Lecture 11 - How to solve force vector problems 48:05
Lecture 12 - Work, Energy, Conservation of Energy, Hooke's Law 1:08:03
Lecture 13 - Work Energy Theorem 1:00:10
Lecture 14 - Impulse, Conservation of Linear Momentum 57:13
Lecture 15 - Linear Momentum 1:03:23
Lecture 16 - Review 1:01:12
Lecture 17 1:00:22
Lecture 18 - Circular Motion 1:06:14
Lecture 19 - Rotational Dynamics 1:08:19
Lecture 20 - Rotational Energy 53:41
Lecture 21 - Angular Momentum, Stress & Strain 59:02
Lecture 22 - Ping-Pong Gun & Buoyant Force 55:01
Lecture 23 - Bernoulli Equation 47:49
Lecture 24 - Ideal Gas Law 51:02
25 - Heat, Specific Heat, Phase Change, Conduction, Convection, Radiation 58:40
Lecture 26 - Simple Harmonic Motion - Final Lecture 1:07:13

July Lectures in Physics 2015 (U of Melbourne)

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source: Science at Melbourne 2015年8月31日
July Lectures in Physics, celebrating the International Year of Light.

Ann Roberts - Light and matter: Bending light waves for new technology 51:09
David Jamieson - Understanding Light: from the Arab scholars of the 11th C to Maxwell and Einstein 1:17:51
Ken Crozier - Nanoscale light: The surprising world of optical nanostructures 59:36
Meg Urry - Prospecting with light: The search for supermassive black holes in galaxies 1:07:57
Stuart Wyithe - Distant light: Reading the signals from the oldest light in the Universe 1:05:59

Paul Selvin: Special Topics in Physics

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source: NanoBio Node     2016年1月27日
Physics 598: Special Topics in Physics

Lecture 2: Fluorescence, Lifetimes and FRET: (Lab 1) 1:36:23
[私人影片]
Lecture 8: smFRET (Dr. Paul Selvin) 50:10
Lecture 10: FIONA IV (Dr. Paul Selvin) 1:01:50
Lecture 4: More FRET (Dr. Paul Selvin) 1:00:38
Lecture 6: FIONA and STORM 1:05:48
Lecture 9: FIONA III: GFPs 1:02:06
Lecture 11: 3D resolution in single molecule fluorescence 49:56
Lecture 3: FRET (Dr. Paul Selvin) 56:23
Lecture 7: more FIONA (Dr. Paul Selvin) 1:01:38
Lecture 5:Still more FRET (Dr. Paul Selvin) 1:08:54