11.30 - 14.30 - 25th September 2024, West Hub, West Cambridge.
The next Research Café is themed around Sustainability, and we are excited to announce that our keynote speaker will be Claire Barlow. Claire is a sustainability and materials engineer, currently serving as the President of the Cambridge Philosophical Society and has been a Senior Member at Newnham College since 1980. Claire's extensive experience includes roles as Course Director for the Manufacturing Engineering Tripos, Director of Undergraduate Education, Deputy Head of the Engineering Department with special responsibility for teaching, and Interim Head of the Department.
If you wish to connect with other researchers, raise your profile and be part of this community, join us on the 25th of September. We have limited places, sign up here!PLANNED SCHEDULE FOR THE EVENT 25th SEPT 2024:
11:30-12:00 - Reception and Refreshments 12:00-13:00 - Talks
13:00-14:30 - Pizza and Engagement
Prize Draw 2pm
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The dynamics of infectious disease (ID) require fast accurate diagnosis for effective management and treatment. Without affordable, accessible diagnostics, syndromic or presumptive actions are often followed, where positive cases may go undetected in the community, or mistreated due to wrong diagnosis. In many low and middle income countries (LMICs), this undermines effective clinical decision-making and infectious disease containment.
Unsteady effects occur in many natural and technical flows, for example around flapping wings or during aircraft gust encounters. If the unsteadiness is large, the resulting forces can be quite considerable. However, the exact physical mechanisms underlying the generation of unsteady forces are complex and their accurate prediction remains challenging. One strategy is to identify the dominant effects and describe these with simple analytical models, first proposed a hundred years ago. When used successfully, this approach has the advantage that it also gives us a conceptual understanding of unsteady fluid mechanics.
In this lecture I will explain some of these ideas and demonstrate how they can still be useful today. As a practical example, I will show how the forces experienced in a wing-gust encounter can be predicted – and how the predictions can be used to mitigate the gust effects. The lecture will be illustrated with images and videos from simple, canonical, experiments.
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