8440 modules
Page 185
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PSYC6109 2026-27
Concepts & Skills
This module covers key concepts and skills relevant to working in academic and other jobs that require academic skills such as generating and presenting own research ideas and critically analysing and discussing existing research. The module provides a great deal of key skills training and encourages students to take part in lively discussions and debates, enhancing their spoken presentation and debating skills. -
PHYS1205 2025-26
Concepts in Machine Learning for Physicists
The primary goal is to provide students with necessary programming background andmathematical skills that are necessary for their degree course and developing further skills in machine learning and artificial intelligence. The emphasis throughout will be on developing insight, understanding and practical skills as well as a solid mathematical background. -
PHYS1205 2026-27
Concepts in Machine Learning for Physicists
The primary goal is to provide students with necessary programming background andmathematical skills that are necessary for their degree course and developing further skills in machine learning and artificial intelligence. The emphasis throughout will be on developing insight, understanding and practical skills as well as a solid mathematical background. -
PHYS2032 2026-27
Concepts of Quantum Science and Nano-technology
The module will convey concepts and ideas involved in nanoscience and nanotechnology to a broad range of physical scientists. The course is intended to provide a guide to the ideas and physical concepts that allow an understanding of the changes that occur as the size scale shrinks toward the atomic scale. Because the field is extremely interdisciplinary, the course will mainly introduce many pervasive concepts such as how to measure on the nanometer scale. A critical theme is the modification of properties by controlling electrons. -
PHYS2032 2027-28
Concepts of Quantum Science and Nano-technology
The module will convey concepts and ideas involved in nanoscience and nanotechnology to a broad range of physical scientists. The course is intended to provide a guide to the ideas and physical concepts that allow an understanding of the changes that occur as the size scale shrinks toward the atomic scale. Because the field is extremely interdisciplinary, the course will mainly introduce many pervasive concepts such as how to measure on the nanometer scale. A critical theme is the modification of properties by controlling electrons. -
SESA3045 2029-30
Concurrent Space Systems Design
Concurrent Space Systems Design builds on the understanding and knowledge gained from the Astronautics modules in years 2 and semester 1 in year 3. You will learn how to place those “building blocks” of space engineering into the context of a group spacecraft design project.
In the taught portion, you will learn about industrial systems engineering processes, the standards that govern space systems engineering, as well as experiment design for system validation and space systems security to make your mission cyber secure.
Parallel to that you will work in small groups to develop all relevant subsystems for a spacecraft in a mission of your own choosing following best industry practices and design principles for space systems engineering. -
SESA3045 2027-28
Concurrent Space Systems Design
Concurrent Space Systems Design builds on the understanding and knowledge gained from the Astronautics modules in years 2 and semester 1 in year 3. You will learn how to place those “building blocks” of space engineering into the context of a group spacecraft design project.
In the taught portion, you will learn about industrial systems engineering processes, the standards that govern space systems engineering, as well as experiment design for system validation and space systems security to make your mission cyber secure.
Parallel to that you will work in small groups to develop all relevant subsystems for a spacecraft in a mission of your own choosing following best industry practices and design principles for space systems engineering. -
SESA6086 2025-26
Concurrent Space Systems Design
Concurrent Space Systems Design builds on the understanding and knowledge gained from the Astronautics modules in years 2 and semester 1 in year 3. You will learn how to place those “building blocks” of space engineering into the context of a group spacecraft design project.
In the taught portion, you will learn about industrial systems engineering processes, the standards that govern space systems engineering, as well as experiment design for system validation and space systems security to make your mission cyber secure.
Parallel to that you will work in small groups to develop all relevant subsystems for a spacecraft in a mission of your own choosing following best industry practices and design principles for space systems engineering. -
SESA6086 2026-27
Concurrent Space Systems Design
Concurrent Space Systems Design builds on the understanding and knowledge gained from the Astronautics modules in years 2 and semester 1 in year 3. You will learn how to place those “building blocks” of space engineering into the context of a group spacecraft design project.
In the taught portion, you will learn about industrial systems engineering processes, the standards that govern space systems engineering, as well as experiment design for system validation and space systems security to make your mission cyber secure.
Parallel to that you will work in small groups to develop all relevant subsystems for a spacecraft in a mission of your own choosing following best industry practices and design principles for space systems engineering. -
SESA3045 2028-29
Concurrent Space Systems Design
Concurrent Space Systems Design builds on the understanding and knowledge gained from the Astronautics modules in years 2 and semester 1 in year 3. You will learn how to place those “building blocks” of space engineering into the context of a group spacecraft design project.
In the taught portion, you will learn about industrial systems engineering processes, the standards that govern space systems engineering, as well as experiment design for system validation and space systems security to make your mission cyber secure.
Parallel to that you will work in small groups to develop all relevant subsystems for a spacecraft in a mission of your own choosing following best industry practices and design principles for space systems engineering.