8439 modules
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SOES6092 2028-29
Biological Data Science in R
Biological data science is a rapidly evolving field at the intersection of biology, statistics, and computer science. There is a growing demand for professionals skilled in analysing and interpreting data as well as an expectation that students will be familiar with responsible use of Artificial Intelligence to achieve this goal. Upon successful completion of this course, students will have the skills and knowledge necessary to effectively analyse and interpret biological data using the versatile and freely available programming language R, empowering them to contribute to scientific and societal advancements. -
SESM6052 2026-27
Biological Materials and Biomedical Devices
This module provides an introduction to the ways in which engineering methods are used in characterising and modelling the biophysical properties of tissues and organs, and applied to the design of biomedical implants and devices for the treatment of a wide range of human diseases and dysfunctions. In particular, you will learn about the design and function of prosthetic limbs, auditory implants, cardiovascular devices, and how regenerative medicine and tissue engineering are influencing the development of biomedical implants. The relevant background to anatomy, disease, injury, continuum biomechanics and the mechanical properties of biological materials will be covered such that engineering solutions can be presented with respect to the associated clinical needs. In addition to lectures, you will have hands-on lab-based tasks and talks by specialist clinicians. -
SESM6052 2030-31
Biological Materials and Biomedical Devices
This module provides an introduction to the ways in which engineering methods are used in characterising and modelling the biophysical properties of tissues and organs, and applied to the design of biomedical implants and devices for the treatment of a wide range of human diseases and dysfunctions. In particular, you will learn about the design and function of prosthetic limbs, auditory implants, cardiovascular devices, and how regenerative medicine and tissue engineering are influencing the development of biomedical implants. The relevant background to anatomy, disease, injury, continuum biomechanics and the mechanical properties of biological materials will be covered such that engineering solutions can be presented with respect to the associated clinical needs. In addition to lectures, you will have hands-on lab-based tasks and talks by specialist clinicians. -
SESM6052 2028-29
Biological Materials and Biomedical Devices
This module provides an introduction to the ways in which engineering methods are used in characterising and modelling the biophysical properties of tissues and organs, and applied to the design of biomedical implants and devices for the treatment of a wide range of human diseases and dysfunctions. In particular, you will learn about the design and function of prosthetic limbs, auditory implants, cardiovascular devices, and how regenerative medicine and tissue engineering are influencing the development of biomedical implants. The relevant background to anatomy, disease, injury, continuum biomechanics and the mechanical properties of biological materials will be covered such that engineering solutions can be presented with respect to the associated clinical needs. In addition to lectures, you will have hands-on lab-based tasks and talks by specialist clinicians. -
SESM6052 2031-32
Biological Materials and Biomedical Devices
This module provides an introduction to the ways in which engineering methods are used in characterising and modelling the biophysical properties of tissues and organs, and applied to the design of biomedical implants and devices for the treatment of a wide range of human diseases and dysfunctions. In particular, you will learn about the design and function of prosthetic limbs, auditory implants, cardiovascular devices, and how regenerative medicine and tissue engineering are influencing the development of biomedical implants. The relevant background to anatomy, disease, injury, continuum biomechanics and the mechanical properties of biological materials will be covered such that engineering solutions can be presented with respect to the associated clinical needs. In addition to lectures, you will have hands-on lab-based tasks and talks by specialist clinicians. -
SESM6052 2029-30
Biological Materials and Biomedical Devices
This module provides an introduction to the ways in which engineering methods are used in characterising and modelling the biophysical properties of tissues and organs, and applied to the design of biomedical implants and devices for the treatment of a wide range of human diseases and dysfunctions. In particular, you will learn about the design and function of prosthetic limbs, auditory implants, cardiovascular devices, and how regenerative medicine and tissue engineering are influencing the development of biomedical implants. The relevant background to anatomy, disease, injury, continuum biomechanics and the mechanical properties of biological materials will be covered such that engineering solutions can be presented with respect to the associated clinical needs. In addition to lectures, you will have hands-on lab-based tasks and talks by specialist clinicians. -
SESM6052 2025-26
Biological Materials and Biomedical Devices
This module provides an introduction to the ways in which engineering methods are used in characterising and modelling the biophysical properties of tissues and organs, and applied to the design of biomedical implants and devices for the treatment of a wide range of human diseases and dysfunctions. In particular, you will learn about the design and function of prosthetic limbs, auditory implants, cardiovascular devices, and how regenerative medicine and tissue engineering are influencing the development of biomedical implants. The relevant background to anatomy, disease, injury, continuum biomechanics and the mechanical properties of biological materials will be covered such that engineering solutions can be presented with respect to the associated clinical needs. In addition to lectures, you will have hands-on lab-based tasks and talks by specialist clinicians. -
BIOL2042 2026-27
Biological Sciences Study Abroad
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BIOL2042 2027-28
Biological Sciences Study Abroad
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BIOM1000 2025-26
BIOM Part One Laboratory Programme
This module is the lab programme for all first-year students enrolled on the BIOM degree programme. It aims to give students the opportunity to apply the theory that they learn in their other modules, and to provide them with transferrable, subject-based and professional skills that they will need for their degree and career.
Structurally, the BIOM Part One Laboratory Programme is organised to cover all practical and laboratory based work in the first year of study on all BIOM Pathways in a single timetable organised into central laboratory locations.
The module is structured into a series of activities. There are a series of general sessions which all students enrolled on this module are expected to attempt:
•Information lectures.
•Transferable skills laboratories
•Professional skills laboratories.
•Assignments.
In addition, there are a number of technical laboratories integrated into the Laboratory Programme which cover practical Learning Outcomes from other technical modules in the Programmes.