113 molecular-modeling-or-molecular-dynamic-simulation positions at University of Nottingham
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
/or dynamic analysis of mechanical/robotic systems •Ability to use finite element modelling and to simulate complex mechatronics •Ability to implement control and kinematics with hardware-in-the-loop
-
of component representative specimens for the generation of model validation data using full field visualization methods. - Manufacturing process simulation, particularly for welding and additive
-
to submission) or awarded in the area of immunology/biology or chemical sciences. Experience with cellular and molecular immunology (particularly macrophages), wound healing assays and surface chemical analysis
-
We seek to recruit a research associate/fellow to a postdoctoral position to work on the assembly and commissioning of a new oxide molecular beam epitaxy growth system, with attached Angle Resolved
-
| £20780 + £2500 industry top up (per annum (tax free)) Overview This exciting, fully-funded PhD opportunity invites applications from candidates with a robust foundation in data science, modelling, and
-
We are looking for a researcher, whose expertise lies in wave simulations, to work with Prof Gregor Tanner and Dr Martin Richter on an EPSRC-funded project entitled “xDEA - Vibro-acoustic energy
-
the group and consider how they may contribute. The following are active areas of research in MAS for Thermofluids and Materials: Failure and degradation process simulation for transmission components and
-
Services Community. This role will be based within the School of Medicine Technical Team based at the Royal Derby Hospital site, Derby, a highly skilled and dynamic group supporting multi-disciplinary
-
programme. To acquire, analyse, interpret and evaluate research findings/data using approaches, techniques, models and methods selected or developed for the purpose. To establish a national reputation and
-
network attractors, funded by The Leverhulme Trust. This is a brain inspired project in the field of Neurodynamics. Networks of oscillators are ideal candidates for modelling patterns of functional