Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- Cranfield University
- University of Birmingham
- University of Nottingham
- University of Birmingham;
- University of East Anglia
- The University of Manchester
- University of Exeter
- UNIVERSITY OF VIENNA
- UCL
- University of East Anglia;
- University of Exeter;
- The University of Manchester;
- Imperial College London;
- Loughborough University
- University of Cambridge
- University of Sheffield
- University of Surrey
- KINGS COLLEGE LONDON
- Newcastle University
- Swansea University
- University of Warwick
- AALTO UNIVERSITY
- Imperial College London
- Manchester Metropolitan University;
- University of Oxford;
- University of Plymouth
- University of Plymouth;
- Edinburgh Napier University;
- European Magnetism Association EMA
- King's College London
- Loughborough University;
- Manchester Metropolitan University
- Swansea University;
- The University of Edinburgh
- University of Bristol
- University of Cambridge;
- University of Glasgow
- University of Leeds;
- University of Oxford
- ;
- Bangor University
- Cranfield University;
- Durham University;
- Edinburgh Napier University
- NORTHUMBRIA UNIVERSITY
- Newcastle University;
- The University of Edinburgh;
- University of Aberdeen
- University of Bradford;
- University of Glasgow;
- University of Hull;
- University of Kent;
- University of Leeds
- University of Liverpool
- University of London
- University of Newcastle
- University of Nottingham;
- University of Reading;
- University of Salford;
- University of Strathclyde
- University of Sussex
- University of Sussex;
- University of Warwick;
- 53 more »
- « less
-
Field
-
to improve mechanical performance in composite structures under extreme loads. Emphasis will be placed on the design of hybrid configurations capable of promoting controlled and progressive failure modes
-
an urbanisation gradient. Crucially, plot size is held constant, therefore controlling for area effects, allowing us to understand how site characteristics such as site age and tree composition influence
-
Supervisors Primary Supervisor - Dr Calum Williams Secondary Supervisors - Dr. Maciej Dabrowski , Prof Simon Horsley This PhD studentship will develop 3D-printed optical metamaterials to control
-
new social group. Unlike dispersal in the wild, captive apes have no control over when this occurs and which group they join. We will build on pilot research in our group on orangutans and gorillas
-
versus control conditions to identify putative biomarkers. Funding Only Home students can apply. Home tuition fees will be covered for the duration of the 3-year project. The student will receive a
-
of this project is to generate thermo-haline (temperature-salinity) reconstructions of the surface ocean in the critical sub-Polar North Atlantic zone, to understand surface ocean density controls on this tipping
-
physiology and nutrient assimilation. Controlled feeding experiments will trace trophic transfer into zooplankton and higher consumers, generating quantitative coefficients for ecological risk models. Finally
-
We are constantly balancing different movement goals as we walk through the world – maintaining stability, moving efficiently, and perhaps hurrying to catch a bus! Suboptimal control of gait can
-
humidity-controlled terahertz spectroscopy to probe water properties within membranes, advancing material insights to optimise trade-offs for next-generation energy technologies. Project Detail: You will
-
bring together controlled sediment experiments using the world-class Umeå Mesocosm Facility (time funded by the CONVEX seascape survey) and results from PML’s sediment disturbance experiments, within the BROM