Search
-
Dr. Robert Britton
https://le.ac.uk/people/robert-britton
The academic profile of Dr Robert Britton, Research Fellow at University of Leicester
-
Computationally Intensive Methods
https://le.ac.uk/modules/2025/md7443
Module code: MD7443 This module will cover a variety of computationally intensive methods including maximum likelihood estimation, modelling of non-linear effects, simulation studies, dealing with missing data and machine learning models.
-
Computationally Intensive Methods
https://le.ac.uk/modules/2027/md7443
Module code: MD7443 This module will cover a variety of computationally intensive methods including maximum likelihood estimation, modelling of non-linear effects, simulation studies, dealing with missing data and machine learning models.
-
Fiona Miall
https://le.ac.uk/people/fiona-miall
The academic profile of Dr Fiona Miall, Deputy Head of Medical School, Director of Clinical Studies & Honorary Consultant Haematologist at University of Leicester
-
John Harrison
https://le.ac.uk/people/john-harrison
The academic profile of Dr John Harrison, Associate Professor in GP Medical Education at University of Leicester
-
Edward Jones
https://le.ac.uk/people/edward-jones
The academic profile of Mr Edward Jones, Solicitor and Lecturer, Director of Recruitment at University of Leicester
-
John Hartshorne
https://le.ac.uk/people/john-hartshorne
The academic profile of John Hartshorne, Associate Professor at University of Leicester
-
Stefan Mandelbaum
https://le.ac.uk/people/stefan-mandelbaum
The academic profile of Dr Stefan Mandelbaum, Lecturer at University of Leicester
-
Jose Miola
https://le.ac.uk/people/jose-miola
The academic profile of Professor Jose Miola, Professor at University of Leicester
-
Space Plasmas and Planetary Atmospheres
https://le.ac.uk/modules/2026/pa4603
Module code: PA4603 This module builds upon your knowledge of electromagnetism and the motion of charged particles in electric and magnetic fields to derive the laws determining the behaviour of plasmas and magnetised fluids – magnetohydrodynamics (MHD).