8243 modules
Page 342
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GGES2000 2028-29
Freshwater Ecosystems
Freshwater Ecosystems initially considers the interplay between the physics, chemistry and biology of freshwater ecosystems. A comparative approach is adopted, in which upland streams, lowland rivers, lakes and other standing freshwater environments are considered. Emphasis is placed on the relationships between physics, chemistry and biology, and the differences in these relationships in contrasting freshwater environments. Theoretical aspects are supported by case study seminars. The module finishes by examining the interactions of humans with freshwater ecosystems, with emphasis on impacts and management. -
GGES6004 2028-29
Freshwater Ecosystems
Freshwater Ecosystems initially considers the interplay between the physics, chemistry and biology of freshwater ecosystems. A comparative approach is adopted, in which upland streams, lowland rivers, lakes and other standing freshwater environments are considered. Emphasis is placed on the relationships between physics, chemistry and biology, and the differences in these relationships in contrasting freshwater environments. Theoretical aspects are supported by case study seminars. The module finishes by examining the interactions of humans with freshwater ecosystems, with emphasis on impacts and management. -
GGES2000 2029-30
Freshwater Ecosystems
Freshwater Ecosystems initially considers the interplay between the physics, chemistry and biology of freshwater ecosystems. A comparative approach is adopted, in which upland streams, lowland rivers, lakes and other standing freshwater environments are considered. Emphasis is placed on the relationships between physics, chemistry and biology, and the differences in these relationships in contrasting freshwater environments. Theoretical aspects are supported by case study seminars. The module finishes by examining the interactions of humans with freshwater ecosystems, with emphasis on impacts and management. -
GGES6004 2026-27
Freshwater Ecosystems
Freshwater Ecosystems initially considers the interplay between the physics, chemistry and biology of freshwater ecosystems. A comparative approach is adopted, in which upland streams, lowland rivers, lakes and other standing freshwater environments are considered. Emphasis is placed on the relationships between physics, chemistry and biology, and the differences in these relationships in contrasting freshwater environments. Theoretical aspects are supported by case study seminars. The module finishes by examining the interactions of humans with freshwater ecosystems, with emphasis on impacts and management. -
GGES6004 2029-30
Freshwater Ecosystems
Freshwater Ecosystems initially considers the interplay between the physics, chemistry and biology of freshwater ecosystems. A comparative approach is adopted, in which upland streams, lowland rivers, lakes and other standing freshwater environments are considered. Emphasis is placed on the relationships between physics, chemistry and biology, and the differences in these relationships in contrasting freshwater environments. Theoretical aspects are supported by case study seminars. The module finishes by examining the interactions of humans with freshwater ecosystems, with emphasis on impacts and management. -
GGES2000 2026-27
Freshwater Ecosystems
Freshwater Ecosystems initially considers the interplay between the physics, chemistry and biology of freshwater ecosystems. A comparative approach is adopted, in which upland streams, lowland rivers, lakes and other standing freshwater environments are considered. Emphasis is placed on the relationships between physics, chemistry and biology, and the differences in these relationships in contrasting freshwater environments. Theoretical aspects are supported by case study seminars. The module finishes by examining the interactions of humans with freshwater ecosystems, with emphasis on impacts and management. -
GGES6004 2025-26
Freshwater Ecosystems
Freshwater Ecosystems initially considers the interplay between the physics, chemistry and biology of freshwater ecosystems. A comparative approach is adopted, in which upland streams, lowland rivers, lakes and other standing freshwater environments are considered. Emphasis is placed on the relationships between physics, chemistry and biology, and the differences in these relationships in contrasting freshwater environments. Theoretical aspects are supported by case study seminars. The module finishes by examining the interactions of humans with freshwater ecosystems, with emphasis on impacts and management. -
HIST1190 2025-26
From Alexander to Augustus: Leadership in the Ancient World
Alexander, Sulla, Julius Caesar and Augustus are names which epitomise leadership and authority both in the ancient world and in more recent periods of history. In this module, you will look at the political systems under which they emerged as leaders, and how they transformed the worlds they lived in. Through these we will address the questions of what makes a successful leader, and how political systems might be manipulated. -
HIST1190 2026-27
From Alexander to Augustus: Leadership in the Ancient World
Alexander, Sulla, Julius Caesar, and Augustus are names which epitomise leadership and authority both in the ancient world and in more recent periods of history. In this module, you will learn about the political systems under which men (and, much more rarely, women) like these emerged as leaders and about how they transformed the worlds in which they lived. We shall scrutinise how leaders both good and bad managed to manipulate ancient political systems to their own advantage; we shall come to understand the qualities and attributes Hellenistic and Roman leaders needed to be successful; and we shall compare models of leadership in the ancient world with the ideals we prize in our leaders today. -
BIOM1007 2026-27
From Biological Molecules to Biomedical Data
This module is designed for Biomedical Engineering students on the Artificial Intelligence and Digital Health pathways.
In this module, you will learn about the different types of macromolecules found in cells, with a particular emphasis on DNA and proteins. The module will study the role of nucleic acids and genetic information in defining protein structure, how protein structure influences function, and the principles by which DNA and protein can be manipulated by molecular biology.
This module will also introduce the methods used to collect, present, and analyse data in the life sciences and to estimate models from data, with focused application to introductory level statistical genetics. These topics will provide a grounding in the principles underlying modern biological data science.