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Biodiversity: A Conversation with Sir Partha Dasgupta
This conversation with Sir Partha Dasgupta moderated by Annual Review of Economics Editorial Commitee Member Tim Besley focuses on biodiversity and its implications for economic thought and policy.
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 19c
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 9b
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 15
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 17a
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 25
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 9a
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 14
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 2
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 1b
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 19b
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 3b
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 19a
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 3a
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 11
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 10
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 1a
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 20
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
Aerobreakup of Newtonian and Viscoelastic Liquids: Figure 8
A video from the 2011 review by T.G. Theofanous "Aerobreakup of Newtonian and Viscoelastic Liquids."
The Role of Giant Impacts in Planet Formation, Supplemental Video 4: The disruption of two planets in a giant impact
Visualization of two planets undergoing a disruptive giant impact based on computer simulation output. Disruptive collisions are not expected to be common in Solar System formation and due to numerical effects the amount of disruption shown here is likely overestimated. The larger (target) body is one tenth the mass of the Earth and the smaller (impactor) body is 70% the mass of the target. The planets are colliding at 3.75 times their mutual escape velocity which equates to 12.60 km/s. The collision angle defined by the angle between the velocity vector at impact and the line of their centers of mass is 5°.
Variables: The top-left panel shows mantle and core materials as unique colors for the target and impactor. The top-right panel shows the density of material in kilograms per cubic meter. The bottom-left panel shows temperature in thousands of Kelvins. The bottom right panel shows pressure in Pascals.
Software: Simulation run by T.S.J. Gabriel ([email protected]) using SPLATCH a planetary Smooth Particle Hydrodynamics code developed at the University of Bern (Reufer 2011) maintained by A. Emsenhuber (Ludwig Maximillian University of Munich; [email protected]) and H. Ballantyne (University of Bern; [email protected]).
Citation: Gabriel & Cambioni (2023). The Role of Giant Impacts in Planet Formation Annual Reviews.
The Role of Giant Impacts in Planet Formation, Supplemental Video 1: The merging (accretion) of two planets by giant impact
Visualization of two planets undergoing a giant impact that results in a merger (accretion) based on computer simulation output. The larger (target) body is one tenth the mass of the Earth and the smaller (impactor) body is 70% the mass of the target. The planets are colliding at 1.08 times their mutual escape velocity which equates to 3.63 km/s. The collision angle defined by the angle between the velocity vector at impact and the line of their centers of mass is 30°. Off-axis collisions such as these are more probable than on-axis (head-on) collisions.
Variables: The top-left panel shows mantle and core materials as unique colors for the target and impactor. The top-right panel shows the density of material in kilograms per cubic meter. The bottom-left panel shows temperature in thousands of Kelvins. The bottom right panel shows pressure in Pascals.
Software: Simulation run by T.S.J. Gabriel ([email protected]) using SPLATCH a planetary Smooth Particle Hydrodynamics code developed at the University of Bern (Reufer 2011) maintained by A. Emsenhuber (Ludwig Maximillian University of Munich; [email protected]) and H. Ballantyne (University of Bern; [email protected]).
Citation: Gabriel & Cambioni (2023). The Role of Giant Impacts in Planet Formation Annual Reviews.
The Role of Giant Impacts in Planet Formation, Supplemental Video 3: Erosion of two planets in a giant impact
Visualization of two planets undergoing a giant impact that results in the erosion of the target and impactor based on computer simulation output. This giant impact outcome is sometimes referred to as an erosive hit-and-run. The larger (target) body is one tenth the mass of the Earth and the smaller (impactor) body is 70% the mass of the target. The planets are colliding at 3.25 times their mutual escape velocity which equates to 10.92 km/s. The collision angle defined by the angle between the velocity vector at impact and the line of their centers of mass is 30°. At greater multiples of the escape velocity the runner may be entirely disrupted after the collision.
Variables: The top-left panel shows mantle and core materials as unique colors for the target and impactor. The top-right panel shows the density of material in kilograms per cubic meter. The bottom-left panel shows temperature in thousands of Kelvins. The bottom right panel shows pressure in Pascals.
Software: Simulation run by T.S.J. Gabriel ([email protected]) using SPLATCH a planetary Smooth Particle Hydrodynamics code developed at the University of Bern (Reufer 2011) maintained by A. Emsenhuber (Ludwig Maximillian University of Munich; [email protected]) and H. Ballantyne (University of Bern; [email protected]).
Citation: Gabriel & Cambioni (2023). The Role of Giant Impacts in Planet Formation Annual Reviews.
The Role of Giant Impacts in Planet Formation, Supplemental Video 5: Two planets undergoing a graze-and-merge giant impact
Visualization of two planets undergoing a graze-and-merge style giant impact based on computer simulation output. This style of collision has been widely theorized for the formation of the Moon. The larger (target) body is one tenth the mass of the Earth and the smaller (impactor) body is 70% the mass of the target. The planets are colliding at 1.10 times their mutual escape velocity which equates to 3.69 km/s. The collision angle defined by the angle between the velocity vector at impact and the line of their centers of mass is 45°.
Variables: The top-left panel shows mantle and core materials as unique colors for the target and impactor. The top-right panel shows the density of material in kilograms per cubic meter. The bottom-left panel shows temperature in thousands of Kelvins. The bottom right panel shows pressure in Pascals.
Software: Simulation run by T.S.J. Gabriel ([email protected]) using SPLATCH a planetary Smooth Particle Hydrodynamics code developed at the University of Bern by (Reufer 2011) maintained by A. Emsenhuber (Ludwig Maximillian University of Munich; [email protected]) and H. Ballantyne (University of Bern; [email protected]).
Citation: Gabriel & Cambioni (2023). The Role of Giant Impacts in Planet Formation Annual Reviews.
The Role of Giant Impacts in Planet Formation, Supplemental Video 2: Two planets undergoing a hit-and-run giant impact
Visualization of two planets undergoing a hit-and-run giant impact based on computer simulation output. This style of collision comprises around half of the giant impacts expected to occur during the latter stages of Solar System formation. The larger (target) body is one tenth the mass of the Earth and the smaller (impactor) body is 70% the mass of the target. When the impactor survives relatively intact after the collision it is sometimes referred to as the runner. The planets are colliding at 2.5 times their mutual escape velocity which equates to 8.40 km/s. The collision angle defined by the angle between the velocity vector at impact and the line of their centers of mass is 60°.
Variables: The top-left panel shows mantle and core materials as unique colors for the target and impactor. The top-right panel shows the density of material in kilograms per cubic meter. The bottom-left panel shows temperature in thousands of Kelvins. The bottom right panel shows pressure in Pascals.
Software: Simulation run by T.S.J. Gabriel ([email protected]) using SPLATCH a planetary Smooth Particle Hydrodynamics code developed at the University of Bern (Reufer 2011) maintained by A. Emsenhuber (Ludwig Maximillian University of Munich; [email protected]) and H. Ballantyne (University of Bern; [email protected]).
Citation: Gabriel & Cambioni (2023). The Role of Giant Impacts in Planet Formation Annual Reviews.
Beyond the Ballot Box: A Conversation About Democracy and Policing in the United States
Political scientist Hakeem Jefferson (Stanford University) facilitated a discussion about race policing and the state of American democracy with fellow political scientists Cathy J. Cohen (University of Chicago) Yanilda M. González (Harvard Kennedy School) Rebecca U. Thorpe (University of Washington) and Vesla M. Weaver (Johns Hopkins University) on May 26 2021. The conversation occurred a year after George Perry Floyd Jr. a 46-year-old Black man was murdered by a White police officer in Minneapolis Minnesota. Moving beyond common notions of democracy that focus primarily on voting and electoral participation the panelists discussed how American policing and the criminal justice system more broadly redefine citizenship redistribute power and shape marginalized people's understanding of their place in society. Closing remarks addressed the potential for change in how criminal justice institutions treat marginalized people and how political scientists can more usefully contribute to efforts that strengthen democracy for all.
Economics with a Moral Compass? Welfare Economics: Past, Present, and Future
This conversation between Nobel Laureates Amartya Sen and Angus Deaton moderated by Annual Review of Economics Editorial Committee Member Tim Besley focuses on bringing ethical issues into economics and the implications that this has for the practice and teaching of economics.
A Conversation with Angus Deaton
Dr. Angus Deaton Professor of Economics and International Affairs Emeritus at Princeton University and Presidential Professor of Economics at University of Southern California in conversation with Dr. Gordon Rausser Co-Editor of the Annual Review of Resource Economics. Read the associated article.
A Conversation with Robert Keohane
Robert O. Keohane Professor of International Affairs at Princeton University in conversation with Helen V. Milner Professor of Politics and International Relations at Princeton University.
The Insect Circulatory System: Structure, Function, and Evolution: Video 1
A video from the 2020 review by Julián F. Hillyer and Günther Pass "The Insect Circulatory System: Structure Function and Evolution" from the Annual Review of Entomology.
Shown: Dorsal view of a mosquito abdomen showing the contracting heart. (Anterior on left; real time.)
The Insect Circulatory System: Structure, Function, and Evolution: Video 2
A video from the 2020 review by Julián F. Hillyer and Günther Pass "The Insect Circulatory System: Structure Function and Evolution" from the Annual Review of Entomology.
Shown: Dorsal view of a mosquito abdomen showing the dynamics of hemolymph flow. (Anterior on left; real time.)
Gary P. Latham: The Three Secrets to Gary’s Success
Gary P. Latham Secretary of State Professor of Organizational Effectiveness and Professor of Organizational Behaviour and HR Management at the University of Toronto talks about his life and career with Frederick Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University for the 2019 volume of the Annual Review of Organizational Psychology and Organizational Behavior.
Gary P. Latham: How Do We Make Sure Our Research Is Relevant for Organizations and Managers?
Gary P. Latham Secretary of State Professor of Organizational Effectiveness and Professor of Organizational Behaviour and HR Management at the University of Toronto talks about his life and career with Frederick Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University for the 2019 volume of the Annual Review of Organizational Psychology and Organizational Behavior.
Gary P. Latham: Gary’s Soapbox: This Is the Scandal of Our Field
Gary P. Latham Secretary of State Professor of Organizational Effectiveness and Professor of Organizational Behaviour and HR Management at the University of Toronto talks about his life and career with Frederick Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University for the 2019 volume of the Annual Review of Organizational Psychology and Organizational Behavior.
Gary P. Latham: On the Marriage Between Locke and Latham
Gary P. Latham Secretary of State Professor of Organizational Effectiveness and Professor of Organizational Behaviour and HR Management at the University of Toronto talks about his life and career with Frederick Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University for the 2019 volume of the Annual Review of Organizational Psychology and Organizational Behavior.
Gary P. Latham: On the HR/OB Dichotomy
Gary P. Latham Secretary of State Professor of Organizational Effectiveness and Professor of Organizational Behaviour and HR Management at the University of Toronto talks about his life and career with Frederick Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University for the 2019 volume of the Annual Review of Organizational Psychology and Organizational Behavior.
Gary P. Latham: Lesson Learned #2 - Don’t Get Scooped
Gary P. Latham Secretary of State Professor of Organizational Effectiveness and Professor of Organizational Behaviour and HR Management at the University of Toronto talks about his life and career with Frederick Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University for the 2019 volume of the Annual Review of Organizational Psychology and Organizational Behavior.
Gary P. Latham: Theory - Everything in Moderation
Gary P. Latham Secretary of State Professor of Organizational Effectiveness and Professor of Organizational Behaviour and HR Management at the University of Toronto talks about his life and career with Frederick Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University for the 2019 volume of the Annual Review of Organizational Psychology and Organizational Behavior.
Gary P. Latham: Advice for Every Stage of Your Graduate Career
Gary P. Latham Secretary of State Professor of Organizational Effectiveness and Professor of Organizational Behaviour and HR Management at the University of Toronto talks about his life and career with Frederick Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University for the 2019 volume of the Annual Review of Organizational Psychology and Organizational Behavior.
Gary P. Latham: Lesson Learned #1 - How Do You Win by Putting Other People Down- You Don’t
Gary P. Latham Secretary of State Professor of Organizational Effectiveness and Professor of Organizational Behaviour and HR Management at the University of Toronto talks about his life and career with Frederick Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University for the 2019 volume of the Annual Review of Organizational Psychology and Organizational Behavior.
Gary P. Latham: Resiliency - Overcoming 90% Rejection Rates
Gary P. Latham Secretary of State Professor of Organizational Effectiveness and Professor of Organizational Behaviour and HR Management at the University of Toronto talks about his life and career with Frederick Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University for the 2019 volume of the Annual Review of Organizational Psychology and Organizational Behavior.
Gary P. Latham: What Does It Take to Be a Good Mentee?
Gary P. Latham Secretary of State Professor of Organizational Effectiveness and Professor of Organizational Behaviour and HR Management at the University of Toronto talks about his life and career with Frederick Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University for the 2019 volume of the Annual Review of Organizational Psychology and Organizational Behavior.
Gary P. Latham: On the Importance of Mentors
Gary P. Latham Secretary of State Professor of Organizational Effectiveness and Professor of Organizational Behaviour and HR Management at the University of Toronto talks about his life and career with Frederick Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University for the 2019 volume of the Annual Review of Organizational Psychology and Organizational Behavior.
Gary P. Latham: Mentors - Seek and Embrace Criticism
Gary P. Latham Secretary of State Professor of Organizational Effectiveness and Professor of Organizational Behaviour and HR Management at the University of Toronto talks about his life and career with Frederick Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University for the 2019 volume of the Annual Review of Organizational Psychology and Organizational Behavior.
Hitchhiking of Viral Genomes on Cellular Chromosomes: Video 1
A supplemental video from the 2019 review by Tami L. Coursey and Alison A. McBride "Hitchhiking of Viral Genomes on Cellular Chromosomes" from the Annual Review of Virology.
Shown: Faithful partitioning of a viral genome.
A Conversation with Theda Skocpol
An interview with Theda Skocpol took place at Harvard University in December 2017. Professor Skocpol is the Victor S. Thomas Professor of Government and Sociology at Harvard University. Skocpol is the author of numerous books and articles well known in political science and beyond including States and Social Revolutions Protecting Soldiers and Mothers Diminished Democracy: From Membership to Management in American Civic Life and The Tea Party and the Remaking of Republican Conservatism (the latter coauthored with Vanessa Williamson). Skocpol has served as President of the American Political Science Association and the Social Science History Association. Among her honors she is an elected member of the American Academy of Arts and Sciences the American Philosophical Society and the National Academy of Sciences and she was awarded the Johan Skytte Prize in Political Science. She was interviewed by Eric Schickler the Jeffrey & Ashley McDermott Professor of Political Science at the University of California Berkeley.
Unoccupied Aircraft Systems in Marine Science and Conservation: Supplemental Video 1
A supplemental video from the 2019 review by David W. Johnston "Unoccupied Aircraft Systems in Marine Science and Conservation" from the Annual Review of Marine Science.
Shown: An example of how fixed-wing unoccupied aircraft systems are used to survey gray seal colonies in eastern Canada.
Unoccupied Aircraft Systems in Marine Science and Conservation: Supplemental Video 2
A supplemental video from the 2019 review by David W. Johnston "Unoccupied Aircraft Systems in Marine Science and Conservation" from the Annual Review of Marine Science.
Shown: A drone video of four humpback whales bubble-net feeding in Antarctica.
Unoccupied Aircraft Systems in Marine Science and Conservation: Supplemental Video 3
A supplemental video from the 2019 review by David W. Johnston "Unoccupied Aircraft Systems in Marine Science and Conservation" from the Annual Review of Marine Science.
Shown: A fly-through of a three-dimensional model of Torgersen Island Antarctica generated through structure-from-motion processing.
A Conversation with Brian and Deborah Charlesworth
Interview between Dr. Gil McVean Dr. Deborah Charlesworth and Dr. Brian Charlesworth.
Date: 4th July 2018
Filmed and edited: Video Team within Communications and Marketing at the University of Edinburgh.
Contact: [email protected]
2008 Financial Crisis: A Ten-Year Review conference. Speaker: Deborah Lucas
Deborah Lucas MIT on "Measuring the Cost of Bailouts."
2008 Financial Crisis: A Ten-Year Review conference. Closing Remarks.
Speakers: Stanley Fischer (former Vice Chairman of the Federal Reserve Board) and Andrew Lo (MIT).
2008 Financial Crisis: A Ten-Year Review conference. Speaker: Harold James
Harold James (Princeton University) presents: Deglobalization: The Rise of Disembedded Unilateralism.
2008 Financial Crisis: A Ten-Year Review conference video. Speaker: Andrew Lo
Andrew Lo MIT starts the conference program and provides a detailed introduction to the Annual Review of Financial Economics.
2008 Financial Crisis: A Ten-Year Review conference. Speaker: Raghu Sundaram
Opening Remarks by Dean of NYU Stern School of Business Raghu Sundaram.
2008 Financial Crisis: A Ten-Year Review conference. Panel: Central Banking in Crisis Management
The Role of Central Banking in Crisis Management. Moderator: Stanley Fischer. Participants: Ben Bernanke (former Chairman of the Federal Reserve Board) Mervyn King (former Governor of Bank of England) Jean-Claude Trichet (former President of the European Central Bank)
2008 Financial Crisis: A Ten-Year Review conference. Panel on Theory & Measures of Financial Crises.
Panel on the Theory and Measures of Financial Crises.
Session Chair: Thomas Philippon (NYU)
Presentations from: Arvind Krishnamurthy (Stanford University) Tobias Adrian (IMF) Rob Engle (NYU) and Andrew Metrick (Yale University)
A Conversation with Jaan Einasto
Jaan Einasto of the Tartu Observatory in Estonia speaks about his life and career with Tim de Zeew of Leiden University.
A Conversation with Charles V. Hamilton
Charles V. Hamilton Wallace Sayre Professor Emeritus of Political Science and Government at Columbia University speaks about his life and career with Fredrick C. Harris Dean of Social Science and Professor of Political Science at Columbia University on July 13 2017 at the University of Chicago.
Pushing Boundaries: My Personal and Scientific Journey: Figure 3
A video from the 2018 review by Myriam P. Sarachik "Pushing Boundaries: My Personal and Scientific Journey" from the Annual Review of Condensed Matter Physics.
Shown: Animations of a schematic (left) and a computer simulation (right) of a magnetic deflagration initiated at the top end of a sample and propagating downward as a spin-reversal front at subsonic speed with a consequent release of Zeeman energy. Computer simulation courtesy of Kevin Mertes.
Double-Diffusive Convection at Low Prandtl Number: Supplemental Video
A supplemental video from the 2018 review by Pascale Garaud "Double-Diffusive Convection at Low Prandtl Number" from the Annual Review of Fluid Mechanics.
Shown: Temporal evolution of the compositional perturbations C in a simulation at Pr = τ = 0.33 R 0 -1 = 1.15 in a large domain of size 200d x 200d x 400d. After a brief phase of oscillatory double-diffusive convection (ODDC) (which can be difficult to see in this fixed-scale movie) eight layers spontaneously appear. The layers progressively merge until only two are left at which point the movie ends. These layers ultimately merge much later (not shown). Simulation from Wood et al. (2013).
Particle Segregation in Dense Granular Flows: Supplemental Video 1
A supplemental video from the 2018 review by John Mark Nicholas Timm Gray "Particle Segregation in Dense Granular Flows" from the Annual Review of Fluid Mechanics.
Shown: Movie of Savage & Lun's (1988) chute flow experiment.
Particle Segregation in Dense Granular Flows: Supplemental Video 2
A supplemental video from the 2018 review by John Mark Nicholas Timm Gray "Particle Segregation in Dense Granular Flows" from the Annual Review of Fluid Mechanics.
Shown: Movie through the sidewall of Golick & Daniels (2009) annular shear cell experiment.
Particle Segregation in Dense Granular Flows: Supplemental Video 3
A supplemental video from the 2018 review by John Mark Nicholas Timm Gray "Particle Segregation in Dense Granular Flows" from the Annual Review of Fluid Mechanics.
Shown: Movie showing the segregation of large and small particles in van der Vaart et al. (2015) shear box experiments. The particle positions are reconstructed from index-matched laser scans across the cell when the sidewalls are in the vertical position.
Particle Segregation in Dense Granular Flows: Supplemental Video 4
A supplemental video from the 2018 review by John Mark Nicholas Timm Gray "Particle Segregation in Dense Granular Flows" from the Annual Review of Fluid Mechanics.
Shown: Movie showing the rise of an opaque medium and a large particle in an index-matched body of small particles (van der Vaart et al. 2015). The images are captured each time the shear box walls are in the vertical position.
Particle Segregation in Dense Granular Flows: Supplemental Video 5
A supplemental video from the 2018 review by John Mark Nicholas Timm Gray "Particle Segregation in Dense Granular Flows" from the Annual Review of Fluid Mechanics.
Shown: Movie of the USGS debris flow flume experiments (Johnson et al. 2012) showing the full flume and tracer particles been dropped onto the surface of the flow at the exit onto the tun-out pad.
Particle Segregation in Dense Granular Flows: Supplemental Video 6
A supplemental video from the 2018 review by John Mark Nicholas Timm Gray "Particle Segregation in Dense Granular Flows" from the Annual Review of Fluid Mechanics.
Shown: Overhead movie of the advance of the leveed channel onto the run-out pad of the USGS debris-flow flume (Johnson et al. 2012).
Particle Segregation in Dense Granular Flows: Supplemental Video 7
A supplemental video from the 2018 review by John Mark Nicholas Timm Gray "Particle Segregation in Dense Granular Flows" from the Annual Review of Fluid Mechanics.
Shown: Animation of high resolution images tracking with the front of the debris flow (Johnson et al. 2012) showing the advection of tracer particles towards the front where they are either over-rolled or deposited in the levee walls.
Particle Segregation in Dense Granular Flows: Supplemental Video 8
A supplemental video from the 2018 review by John Mark Nicholas Timm Gray "Particle Segregation in Dense Granular Flows" from the Annual Review of Fluid Mechanics.
Shown: Numerical simulation of the formation of fingers in a bi-disperse mixture of large rough grains and finer less frictional particles on an inclined plane. The downslope direction is from top to bottom (Baker et al. 2016).
Particle Segregation in Dense Granular Flows: Supplemental Video 9
A supplemental video from the 2018 review by John Mark Nicholas Timm Gray "Particle Segregation in Dense Granular Flows" from the Annual Review of Fluid Mechanics.
Shown: Experiment shoing the formation of fingers on an inclined planes (Baker et al. 2016). The mixture is composed of 80% (75-150 micron) ballotini and 20% brown carborundum (305-355 micron). The turquoise base is made of 750-1000 micron ballotini.
Particle Segregation in Dense Granular Flows: Supplemental Video 10
A supplemental video from the 2018 review by John Mark Nicholas Timm Gray "Particle Segregation in Dense Granular Flows" from the Annual Review of Fluid Mechanics.
Shown: Movie showing the formation of the Catherine wheel and radial segregation patterns in a thin rotating drum (Gray & Hutter 1997; Gray & Chugunov 2006). The drum is initially shaken horizontally so that all the large white sugar particles are on the front face and the small grey iron spheres are on the rear side.
Particle Segregation in Dense Granular Flows: Supplemental Video 11
A supplemental video from the 2018 review by John Mark Nicholas Timm Gray "Particle Segregation in Dense Granular Flows" from the Annual Review of Fluid Mechanics.
Shown: Simulations of segregation in a square rotating drum in the continuously avalanching regime (courtesy D. Mounty) showing the formation of pattern with a series of arms. Note the periodic rise and fall of the position of the free-surface.
Particle Segregation in Dense Granular Flows: Supplemental Video 12
A supplemental video from the 2018 review by John Mark Nicholas Timm Gray "Particle Segregation in Dense Granular Flows" from the Annual Review of Fluid Mechanics.
Shown: Experiment showing the formation of petals in a 50% full circular drum. Small perturbations to the initial radial distribution build up over a number of revolutions until a wave develops that locks in petals of a given wavelength (Zuriguel et al 2006).
Particle Segregation in Dense Granular Flows: Supplemental Video 13
A supplemental video from the 2018 review by John Mark Nicholas Timm Gray "Particle Segregation in Dense Granular Flows" from the Annual Review of Fluid Mechanics.
Shown: When the half full drum with the petals of a given frequency is speeded up the pattern initially destroys itself before locking into another state with fewer petals (Zuriguel et al 2006).
Hydrodynamic Interactions Among Bubbles, Drops, and Particles in Non-Newtonian Liquids: Supplemental Video 1
A supplemental video from the 2018 review by R. Zenit and J.J. Feng "Hydrodynamic Interactions Among Bubbles Drops and Particles in Non-Newtonian Liquids" from the Annual Review of Fluid Mechanics.
Shown: Rising swarms of bubbles in a Newtonian fluid with gas volume fraction ϕ ≈ 0.05.
Hydrodynamic Interactions Among Bubbles, Drops, and Particles in Non-Newtonian Liquids: Supplemental Video 2
A supplemental video from the 2018 review by R. Zenit and J.J. Feng "Hydrodynamic Interactions Among Bubbles Drops and Particles in Non-Newtonian Liquids" from the Annual Review of Fluid Mechanics.
Shown: Rising swarms of bubbles in an inelastic shear-thinning fluid with gas volume fraction ϕ ≈ 0.05.
Hydrodynamic Interactions Among Bubbles, Drops, and Particles in Non-Newtonian Liquids: Supplemental Video 3
A supplemental video from the 2018 review by R. Zenit and J.J. Feng "Hydrodynamic Interactions Among Bubbles Drops and Particles in Non-Newtonian Liquids" from the Annual Review of Fluid Mechanics.
Shown: Rising swarms of bubbles in a Boger fluid with gas volume fraction ϕ ≈ 0.05. The bubbles are smaller than the critical volume at which the bubble velocity discontinuity is observed in this particular fluid.
Hydrodynamic Interactions Among Bubbles, Drops, and Particles in Non-Newtonian Liquids: Supplemental Video 4
A supplemental video from the 2018 review by R. Zenit and J.J. Feng "Hydrodynamic Interactions Among Bubbles Drops and Particles in Non-Newtonian Liquids" from the Annual Review of Fluid Mechanics.
Shown: Rising swarms of bubbles in a Boger fluid with gas volume fraction ϕ ≈ 0.05. The bubbles are larger than the critical volume at which the bubble velocity discontinuity is observed in this particular fluid.
How Did You Get Interested in the Field?
Terence R. Mitchell Professor Emeritus at the Foster School of Business University of Washington Seattle Washington talks about his life and career with Frederick P. Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University.
Don’t Get Lost in the Theory: Tips for Staying Close to the Phenomenon
Terence R. Mitchell Professor Emeritus at the Foster School of Business University of Washington Seattle Washington talks about his life and career with Frederick P. Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University.
Where to Look for Ideas: The Search for Inspiration
Terence R. Mitchell Professor Emeritus at the Foster School of Business University of Washington Seattle Washington talks about his life and career with Frederick P. Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University.
Words of Wisdom: Terry’s Four-Step Rule
Terence R. Mitchell Professor Emeritus at the Foster School of Business University of Washington Seattle Washington talks about his life and career with Frederick P. Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University.
How to Balance Work and Family
Terence R. Mitchell Professor Emeritus at the Foster School of Business University of Washington Seattle Washington talks about his life and career with Frederick P. Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University.
Making a Contribution: Is It More Than Top-Tier Publications?
Terence R. Mitchell Professor Emeritus at the Foster School of Business University of Washington Seattle Washington talks about his life and career with Frederick P. Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University.
Looking to the Future: Diverse Voices and the Challenges of Publishing
Terence R. Mitchell Professor Emeritus at the Foster School of Business University of Washington Seattle Washington talks about his life and career with Frederick P. Morgeson Eli Broad Professor of Management at the Eli Broad College of Business at Michigan State University.
A Conversation with David Lowenthal
David Lowenthal talks about his life and career in geography with Yannis Hamilakis for the Annual Review of Anthropology.
A Conversation with Walter Munk
Walter Munk talks about his life and career in marine science with Carl Wunsch for the Annual Review of Marine Science.
A Conversation with Kenneth Freeman
Kenneth C. Freeman of the Australian National University talks about his life and career with Joss Bland-Hawthorn of the University of Sydney.
Small-Scale Challenges to the ΛCDM Paradigm: Figure 7b
A video from the 2017 review by James S. Bullock and Michael Boylan-Kolchin "Small-Scale Challenges to the ΛCDM Paradigm" from the Annual Review of Astronomy and Astrophysics.
The missing satellites problem: predicted ΛCDM substructure (a) versus known MW satellites (b). Panel b (by M. Pawlowski in collaboration with the authors) shows the current census of MW satellite galaxies with galaxies discovered since 2015 in red. The Galactic disk is represented by a circle of radius 15 kpc at the center and the outer sphere has a radius of 250 kpc. The 11 brightest (classical) MW satellites are labeled by name. Sizes of the symbols are not to scale but are rather proportional to the log of each satellite galaxy's stellar mass. Currently there are ∼50 satellite galaxies known in the MW as compared to thousands of predicted subhalos with M peak≳107M⊙. Abbreviations: dSph dwarf spheroidal; LMC Large Magellanic Cloud; MW Milky Way; SMC Small Magellanic Cloud.
A Conversation with John McKetta
John J. McKetta Chair Emeritus in Engineering at the University of Texas at Austin talks about his life and career with Thomas M. Truskett Department Chair of Chemical Engineering at the University of Texas at Austin.
Impacts of Petroleum-Derived Pollutants on Fish Development: Figure 3a
A video from the 2017 review by Gary N. Cherr Elise Fairbairn and Andrew Whitehead "Impacts of Petroleum-Derived Pollutants on Fish Development" from the Annual Review of Animal Biosciences.
Video of Pacific herring (Clupea pallasii) embryos exposed (from fertilization to 7 days postfertilization) to water passing over either (a) nonoiled gravel or (b) gravel coated with Alaska North Slope crude oil (1.5 g of oil per kg of gravel). The hearts are clearly different with respect to size and normal looping of the ventricle. Pericardial edema (blue circle) is obvious in the oil-exposed embryo. Tissue polycyclic aromatic hydrocarbons for the oil-exposed embryos were 3000 ng/g wet weight (22). Video provided by J. Incardona.
Impacts of Petroleum-Derived Pollutants on Fish Development: Figure 3b
A video from the 2017 review by Gary N. Cherr Elise Fairbairn and Andrew Whitehead "Impacts of Petroleum-Derived Pollutants on Fish Development" from the Annual Review of Animal Biosciences.
Video of Pacific herring (Clupea pallasii) embryos exposed (from fertilization to 7 days postfertilization) to water passing over either (a) nonoiled gravel or (b) gravel coated with Alaska North Slope crude oil (1.5 g of oil per kg of gravel). The hearts are clearly different with respect to size and normal looping of the ventricle. Pericardial edema (blue circle) is obvious in the oil-exposed embryo. Tissue polycyclic aromatic hydrocarbons for the oil-exposed embryos were 3000 ng/g wet weight (22). Video provided by J. Incardona.
The Clustering Instability in Rapid Granular and Gas-Solid Flows: Supplemental Video 1
A supplemental video from the 2017 review by William D. Fullmer and Christine M. Hrenya "The Clustering Instability in Rapid Granular and Gas-Solid Flows" from the Annual Review of Fluid Mechanics.
Language Emergence: Visual Abstract
A visual abstract for the 2017 review by Diane Brentari and Susan Goldin-Meadow "Language Emergence" from the Annual Review of Linguistics.
How Social Science Can Help Shape Election Law with Richard Holden
Richard Holden Professor of Economics at UNSW Australia Business School unveils an exciting new review article about the many factors that influence voter behavior. Published in the Annual Review of Law and Social Science his article explains the power of social science research supported by powerful new data processing techniques to shed light on the democratic and voting processes.
For more information about the latest research regarding the electoral process see Professor Holden's review at: arevie.ws/votingelex
Cytoplasmic Streaming in the Drosophila Oocyte: Video 1
A video from the 2016 review by Margot E. Quinlan "Cytoplasmic Streaming in the Drosophila Oocyte" from the Annual Review of Cell and Developmental Biology.
Shown: Slow streaming in a stage 9 wild type Drosophila oocyte. Images of autofluorescent yolk granules were acquired once every 15 seconds (M.E. Quinlan unpublished data).
Cytoplasmic Streaming in the Drosophila Oocyte: Video 2
A video from the 2016 review by Margot E. Quinlan "Cytoplasmic Streaming in the Drosophila Oocyte" from the Annual Review of Cell and Developmental Biology.
Shown: Fast streaming in a stage 11 wild type Drosophila oocyte. Images of yolk granules labeled with trypan blue were acquired once every 15 seconds. Dumping becomes apparent after 5 minutes (M.E. Quinlan unpublished data).
Cytoplasmic Streaming in the Drosophila Oocyte: Video 3
A video from the 2016 review by Margot E. Quinlan "Cytoplasmic Streaming in the Drosophila Oocyte" from the Annual Review of Cell and Developmental Biology.
Shown: Microtubules visualized during fast streaming in a stage 11 Drosophila oocyte expressing GFP-tubulin. Images were acquired every 15 seconds.
Cytoplasmic Streaming in the Drosophila Oocyte: Video 4
A video from the 2016 review by Margot E. Quinlan "Cytoplasmic Streaming in the Drosophila Oocyte" from the Annual Review of Cell and Developmental Biology.
Trypan blue was injected directly into a stage 11 wild type Drosophila oocyte. The dye labeled a subset of yolk granules. Dispersal of the yolk granules over time demonstrates that mixing is accomplished during fast streaming. One image per minute is shown.