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Mechanics 2
/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.
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Inga Thiemann
/people/inga-thiemann
The academic profile of Dr Inga Thiemann, Associate Professor at Â鶹ÊÓƵ
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Freya Tyrer
/people/freya-tyrer
The academic profile of Dr Freya Tyrer, Research Fellow in Epidemiology at Â鶹ÊÓƵ
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Stefan Mandelbaum
/people/stefan-mandelbaum
The academic profile of Dr Stefan Mandelbaum, Lecturer at Â鶹ÊÓƵ
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John Harrison
/people/john-harrison
The academic profile of Dr John Harrison, Associate Professor in GP Medical Education at Â鶹ÊÓƵ
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Vincent Campbell
/people/vincent-campbell
The academic profile of Dr Vincent Campbell, Deputy Head of School at Â鶹ÊÓƵ
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Matthias Dahm
/people/matthias-dahm
The academic profile of Professor Matthias Dahm, Professor of Economics at Â鶹ÊÓƵ
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John Barratt
/people/john-barratt
The academic profile of Dr John Barratt, Associate Professor in Occupational Psychology at Â鶹ÊÓƵ
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Mechanics 2
/modules/2024/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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Community Radio in Practice
/modules/2024/ms3026
Module code: MS3026 This module facilitates your exploration of community radio's unique capacity for community self representation through the production of a talk radio programme.