If you're looking for an MBA with a focus on technology, this is the qualification for you. It is applicable to technology management and technological innovation in a wide variety of contexts and sectors, including: IT/IS, telecommunications, computing, engineering, manufacturing, transport and logistics, retailing, energy production and supply, defence and security, management and administration, and any form of services, including health, welfare and leisure. You will focus on strategic analysis and, intellectual stimulation whilst gaining interdisciplinary skills, and independent judgement ? exploring the processes that underpin technological innovation and the challenges of technology from a strategic perspective, with your learning firmly rooted in management practice throughout.
Environmental management is becoming increasingly important to everyone, whether at work, in the community or at home ? from complying with environmental legislation to addressing the global challenges of climate change and energy conservation. This course addresses the everyday concerns of environmental protection, natural resource management and rapidly changing environmental legislation and policy. You will explore biophysical, social, political and economic factors from local to global level, and develop the skills you need to participate creatively in the process of improving environmental performance in your own context.
Top up your existing qualification to an honours degree. You can top up your OU Foundation Degree in Engineering or an equivalent qualification from somewhere else. Tailor your studies to suit your background and previous study. Develop your knowledge and skills and open up further career or educational opportunities. Study choices include communications, design, electronics, environmental management, mathematics, micro and nano technology, renewable energy, and structural integrity. You'll also complete an engineering project.
This diploma is part of our general engineering programme. During your study, you'll explore the fundamentals of this creative and analytical subject. You'll develop techniques, concepts and knowledge needed by professional engineers. And choose form specialist modules in engineering design, electronics, mechanical engineering, environmental technologies, energy and sustainability, and mathematical methods.
This foundation degree combines academic skills with the needs of your workplace. Boost your career if you're working in an engineering-related job at a technical level. Build on your existing skills and experience to support your professional development plans. You'll apply the study of engineering fundamentals to the solution of real-life problems. Topics include design, electronics, energy, manufacturing, materials, mechanics and structural analysis. It also develops your maths skills, which are key to successful study of engineering.
What does a sustainable energy system look like? How might renewable energy provide a much greater proportion of our energy needs in the coming decades? Which technologies and designs for the various renewable energy sources will we rely on to help us decarbonise our energy systems and maintain a secure supply of affordable electricity and heat? In this module you'll explore these questions by systematically reviewing the eight main renewable energy technologies. With the help of study guides, you will develop your ability to apply this knowledge practically ? especially for solar thermal, solar photovoltaic and wind.
Are fossil fuels running out? Can nuclear power, carbon capture and storage or renewable energy sources provide solutions to the problem of global warming? How can we provide clean, safe, sustainable energy supplies for the UK, and the world, despite increasing population levels and affluence? In this module you will look at the basic principles underlying the design and efficient use of energy and energy supply systems. Using a range of study materials and online activities, you will learn to use the appropriate scientific and mathematical techniques applied to energy related issues.
Gain industry-relevant knowledge of nanoscale engineering, including: manufacture of nanoscale structures and devices; functionality of thin film coatings; energy harvesting and storage; biosensors; and nanotechnology use in medical diagnoses and treatments. You'll learn how surfaces and nanomaterials are characterised. And how the performance of nanoscale devices and processes is simulated. Nanotechnology is contributing solutions to previously inaccessible challenges ? in sectors including communications, energy, environment, healthcare, personalised medicine, and security.
This module builds on the concepts and techniques in (T192). It begins by focusing on invention and innovation, and the advisory or legislative frameworks used to promote good practice and ensure safety. Examples of patents, standards and an energy case study are examined, providing a basis for introducing key topics in engineering and mathematics. Next, it takes you on a tour of modern manufacturing methods, and explores how these are related to properties of materials, product design, environmental sustainability and profitability. More advanced mathematical techniques, including basic calculus, are introduced and applied in an engineering context.
This module will increase your understanding of delivering and supporting sustainability management. You will develop a multidisciplinary perspective on resources, sustainability and health and safety management which will incorporate strategy, policy, data collection and knowledge management. It will introduce you to a systemic approach for studying organisational operations and methods for quantifying and optimising resource use and energy use while using tools to reduce environmental, societal and financial risk. You will also learn how to improve the efficiency and effectiveness with which your organisation can incorporate sustainability issues and to identify future trends and drivers for change in this area. This module is delivered entirely online.
Many decisions and actions, both individual and collective, affect our environment; yet economic and political considerations often dominate. Defining environment to include biophysical, social, political, economic and other factors, this online module uses a systems framework to integrate environment with other elements when making environmental decisions in complex situations. You will explore a contemporary case of environmental decision making concerning fracking, as well as further examples from different parts of the world around water, energy, agriculture, forestry and climate change. You will also be able to consider an environmental decision-making situation of your own choosing, through the development of a project.
explores the fascinating and diverse world of cells, from single-celled micro-organisms to the specialised cells that form complex tissues in plants and animals. It develops the key aspects of cell and molecular biology introduced in (S111), (S112) and (SDK100). It explores the origins of cells and the generation of cell diversity, as well as the common features of cellular structure and function ? how they obtain energy, synthesise new molecules, communicate, proliferate and survive. There is an emphasis on the fundamental importance of cell biology in modern science, particularly in relation to cell technologies and health.