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Emerging and Future Treatments: Studying asymptomatic genetic carriers in MND

Series
Families for the Treatment of Hereditary MND (FATHoM) Oxford Meeting
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Professor Martin Turner, Nuffield Department of Clinical Neurosciences, gives the final talk in the FATHOM meeting.

Episode Information

Series
Families for the Treatment of Hereditary MND (FATHoM) Oxford Meeting
People
Martin Turner
Keywords
Medicine
motor neuron disease
MND
Department: Nuffield Department of Clinical Neurosciences
Date Added: 27/06/2017
Duration: 00:35:17

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Emerging and Future Treatments

Series
Families for the Treatment of Hereditary MND (FATHoM) Oxford Meeting
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Professor Kevin Talbot, Nuffield Department of Clinical Neurosciences, gives the third talk for the FATHOM meeting.

Episode Information

Series
Families for the Treatment of Hereditary MND (FATHoM) Oxford Meeting
People
Kevin Talbot
Keywords
motor neuron disease
MND
FATHOM
Medicine
Department: Nuffield Department of Clinical Neurosciences
Date Added: 27/06/2017
Duration: 00:31:40

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Genetic Testing

Series
Families for the Treatment of Hereditary MND (FATHoM) Oxford Meeting
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Christopher Shaw, King's College London, gives the second talk for the FATHOM meeting.

Episode Information

Series
Families for the Treatment of Hereditary MND (FATHoM) Oxford Meeting
People
Christopher Shaw
Keywords
Medicine
motor neuron disease
MND
Department: Nuffield Department of Clinical Neurosciences
Date Added: 27/06/2017
Duration: 00:38:50

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The Genetics of Motor Neuron Disease

Series
Families for the Treatment of Hereditary MND (FATHoM) Oxford Meeting
Embed
Professor Kevin Talbot gives the first presentation in the FATHOM meeting. Introduction by Professor Martin Turner.

Episode Information

Series
Families for the Treatment of Hereditary MND (FATHoM) Oxford Meeting
People
Kevin Talbot
Keywords
MND
motor neuron disease
Medicine
Department: Nuffield Department of Clinical Neurosciences
Date Added: 27/06/2017
Duration: 00:30:25

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Ian Ramsey Centre: The Great Debate

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Ian Ramsey Centre: The Great Debate
The Great Debated is a series of fifteen lectures by Timothy McGrew, Professor and Department Chair, Department of Philosophy, Western Michigan University. The 'Great Debate' is a convenient umbrella term for a set of theological and philosophocal disputes about miracles, prophecy, and theism itself in the wake of the Deist Controversy. These disputes spanned roughly the years 1760 to 1900, played out across England, Europe, and North America, and associated with seven types of sceptical attack on the grounds of revealed religion: continental, urbane, populist, scholarly, transcendental, establishment, and Dutch/German. The ensuring controversies continue to shape cultures to the present day. This series was delivered as a graduate-level online course in Western Michigan University 10 May - 28 June 2016, produced in collaboration with the Ian Ramsey Centre, Oxford University Faculty of Theology and Religion, as part of the Special Divine Action project, sponsored by the John Templeton Foundation.

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Solving the Replication Crisis in Psychology: Insights from History and Philosophy of Science

Series
Uehiro Oxford Institute
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In this episode, Brian Earp discusses the 'Reproducibility Project' and questions whether psychology is in crisis or not.
In a much-discussed New York Times article, psychologist Lisa Feldman Barrett claimed, “Psychology is not in crisis.” She was responding to the results of a large-scale initiative called the Reproducibility Project, published in Science magazine, which appeared to show that the results from over 60% of a sample of 100 psychology studies did not hold up when independent labs attempted to replicate them. In this talk, Earp addresses three issues: what did the Reproducibility Project really show?; is psychology in crisis or not?; and is there room for improvement?
Creative Commons Licence
Creative Commons Attribution-Non-Commercial-Share Alike 2.0 UK (BY-NC-SA): England & Wales; https://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Episode Information

Series
Uehiro Oxford Institute
People
Brian Earp
Keywords
psychology
reproducibility project
replicating experiments
Department: Uehiro Oxford Institute
Date Added: 27/06/2017
Duration: 00:37:38

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Observation of the mergers of binary black holes: The opening of gravitational wave astronomy

Series
Oxford Physics Public Lectures
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The 2017 Halley Lecture 7th June 2017 delivered by Professor Rainer Weiss, MIT on behalf of the LIGO Scientific Collaboration

The recent observations of gravitational waves from the merger of binary black holes open a new way to learn about the universe as well as to test General Relativity in the limit of strong gravitational interactions – the dynamics of massive bodies traveling at relativistic speeds in a highly curved space-time. The lecture will describe some of the difficult history of gravitational waves proposed 100 years ago. The concepts used in the instruments and the methods for data analysis that enable the measurement of gravitational wave strains of 10-21 and smaller will be presented. The results derived from the measured waveforms, their relation to the Einstein field equations and the astrophysical implications are discussed. The talk will end with our vision for the future of gravitational wave astronomy.

Episode Information

Series
Oxford Physics Public Lectures
People
Rainer Weiss
Keywords
gravity
gravitational waves
black holes
binary black holes
general relativity
gravitational interactions
highly curved space-time
gravitational wave strains
Einstein field equations
astronomy
Department: Department of Physics
Date Added: 27/06/2017
Duration:

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Ghost Imaging with Quantum Light

Series
Oxford Physics Public Lectures
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Physics Colloquium 26th May 2017 delivered by Professor Miles Padgett, University of Glasgow

Ghost imaging and ghost diffraction were first demonstrated by Shih and co-workers using photon pairs created by parametric down-conversion. They were able to obtain an image or a diffraction pattern using photons that had never interacted with the object, relying instead on the correlations with photons that have.
In a typical ghost-imaging configuration, the down-converted photons are directed into two separate optical arms. The object is placed in one arm and a single-pixel “heralding” detector detects the photons transmitted through this object. The signal from this detector triggers a camera positioned in the other arm, which then detects the spatial position of the correlated photon. The image is recovered from the coincidence detection of the two photons.
But what sets the resolution of the resulting images? The resolution of the heralding arm, the resolution of the camera optics, or something else? This talk will present an examination of the resolution limits of the ghost imaging and ghost diffraction. Beyond consideration of these limits, our ghost diffraction is an implementation of Popper’s thought experiment, and while our results agree with his experimental predictions, we show how these results do not contradict the Copenhagen Interpretation.

Episode Information

Series
Oxford Physics Public Lectures
People
Miles Padgett
Keywords
Ghost imaging
ghost diffraction
Shih
photon pairs
parametric down-conversion
diffraction pattern
photons
ghost-imaging
Department: Department of Physics
Date Added: 27/06/2017
Duration:

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Families for the Treatment of Hereditary MND (FATHoM) Oxford Meeting

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Radcliffe Camera roof against blue sky, with Oxford banner above
Families for the Treatment of Hereditary MND (FATHoM) is an initiative to bring together the community of families affected by inherited (genetic) forms of MND. This first event is a meeting led by Professor Martin Turner and Professor Kevin Talbot consisting of expert talks on key issues affecting such families.

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Pulsars and Extreme Physics - A 50th Anniversary

Series
Oxford Physics Public Lectures
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Physics Colloquium 5th May 2017 delivered by Dame Professor Jocelyn Bell Burnell

Pulsars, or pulsating radio stars, were discovered accidentally 50 years ago. Dame Professor Bell Burnell will give a brief account of the equipment used and the discovery. We now understand pulsars to be rapidly rotating neutron stars (1ms < P 10s, R ≈ 10km, surface speed 10%c) which manifest extreme physics in several dimensions (average density = nuclear, surface B up to 1011T). Dame Professor Bell Burnell will describe the main features of pulsars and indicate how they are impacting our understanding of physics today.

Episode Information

Series
Oxford Physics Public Lectures
People
Jocelyn Bell Burnell
Keywords
pulsars
pulsating radio stars
discovery
neutron stars
extreme physics
Department: Department of Physics
Date Added: 27/06/2017
Duration:

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