Sort by
Refine Your Search
-
Element Method (DEM), to analyse and predict pharmaceutical tablet disintegration. The goal is to construct robust, physics-based simulations that deepen the understanding of the underlying processes and
-
partners. The post holder will be responsible for developing and implementing mechanistic models, primarily using the Discrete Element Method (DEM), to analyse and predict pharmaceutical tablet
-
compliance with CCSDS and ECSS standards, and supporting end-to-end system performance analysis. The engineer collaborates closely with payload, avionics, and ground segment teams to optimise antenna design
-
perspective. You will be confident in delivering presentations, managing complex projects, and organising events, with a strong proficiency in IT skills. International travel will be a key component of this
-
solving, hands-on work, and scientific support? We are seeking an Ion Beam Analysis Experimental Officer to join the Surrey Ion Beam Centre, an EPSRC-funded national facility, to play a pivotal role in
-
experimental studies, multi-physics and data-driven modelling, explainable AI, and techno-economic analysis to advance the application of digital technologies. This approach supports the transformation
-
the key elements of the role. The University of Surrey reserves the right to close this vacancy early based on volume and calibre of application. Interviews will be held on Thursday 23rd October. Further
-
Universities and industry. At Surrey, we adopt an integrated approach that combines experimental studies, multi-physics and data-driven modelling, explainable AI, and techno-economic analysis to advance
-
participant recruitment, data collection, keeping meticulous records of participant retention, working with our PPI and governance representatives, data analysis, writing for publication and event planning
-
will focus on the overlap between between nuclear structure and nuclear astrophysics and their responsibilities will include: The analysis of experimental data acquired from both direct and indirect