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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
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Vincent Campbell
https://le.ac.uk/people/vincent-campbell
The academic profile of Dr Vincent Campbell, Deputy Head of School at University of Leicester
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Jonathan Nichols
https://le.ac.uk/people/jonathan-nichols
The academic profile of Dr Jonathan Nichols, Reader in Planetary Auroras at University of Leicester
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Matthias Dahm
https://le.ac.uk/people/matthias-dahm
The academic profile of Professor Matthias Dahm, Professor of Economics at University of Leicester
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John Barratt
https://le.ac.uk/people/john-barratt
The academic profile of Dr John Barratt, Associate Professor in Occupational Psychology at University of Leicester
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Mechanics 2
https://le.ac.uk/modules/2025/fs0042
Module code: FS0042 In this module you will learn how to describe and explain the rotational motion of rigid bodies subject to forces. You will study advanced topics such as oscillations and gravity, and learn how to use differential equations to solve dynamical problems.
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Directed Reading Module
https://le.ac.uk/modules/2025/hs7500
Module code: HS7500 In this module, you’ll develop your reading ability through directed study.
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Key Concepts in Journalism
https://le.ac.uk/modules/2025/jo1001
Module code:JO1001 This module will introduce you to the key theories and concepts associated with journalism. You will learn about core topics in detailed lectures before discussing these and applying them to live news in interactive seminars.
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Key Concepts in Journalism
https://le.ac.uk/modules/2026/jo1001
Module code:JO1001 This module will introduce you to the key theories and concepts associated with journalism. You will learn about core topics in detailed lectures before discussing these and applying them to live news in interactive seminars.
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Mechanics 2
https://le.ac.uk/modules/2026/fs0042
Module code: FS0042 In this module you will learn how to describe and explain the rotational motion of rigid bodies subject to forces. You will study advanced topics such as oscillations and gravity, and learn how to use differential equations to solve dynamical problems.