This course introduces the ideas of thermal physics, contrasting the complexity of a world composed of huge numbers of sub-microscopic particles with the simplicity of the thermodynamic laws that govern its large-scale behaviour.
This module gives an overview of the policy issues, various planning aids and assessment methods available to quantify energy efficiency and sustainability in buildings. Students will be able to use different tools to investigate building energy performance of existing buildings and new building designs as well as to critically assess the results given by the various rating systems. The focus is to create awareness of appropriate forms of energy performance assessment for a given task in order to improve energy efficiency of the UK building stock.
On completion of the module, you will have developed a broad understanding of energy resources, engineering technologies for energy conversion and have an appreciation of solutions available to meet the world's power demands. You will be able to formulate engineering solutions to specific energy and power problems, utilising either renewable energy systems or traditional power technologies. You will also appreciate the need for a broad mix of energy-generating technologies in a modern economy.
Often, the only thing that people experiencing homelessness have in common is that they lack housing. Those who work in homelessness need to have excellent interpersonal skills to effectively engage with such a diverse population with complex needs. Basic counselling skills are the foundation of effective interpersonal skills that allow us to engage with people and build strong therapeutic relationships.
PWPs assess and support people with common mental health problems in the self-management of their recovery. To do so they must be able to undertake a range of patient-centred assessments and be able to identify the main areas of concern relevant to the assessment undertaken. They need to have knowledge and competence to be able to apply these in a range of different assessment formats and settings. These different elements or types of assessment include screening/triage assessment; risk assessment; provisional diagnostic assessment; mental health clustering assessment; psychometric assessment (using the IAPT standardised symptoms measures); problem focused assessment; and intervention planning assessment. In all these assessments they need to be able to engage patients and establish an appropriate relationship whilst gathering information in a collaborative manner.
Solving complex medical research questions and refining clinical care works best when done in collaboration between diverse public (including patients), researchers and health care practitioners. This sort of partnership requires exchange of knowledge, trust and some special ways of working. This module tells you how it is done and helps you develop your own skills – ranging from research skills through to philosophy – which are considered as essential for the development of successful researchers. Collaboration with the public over research means understanding what is known about the relationship between research and society and learning from approaches taken in the social sciences, in science communication, and the arts and humanities. In this module, you will explore the core concepts of patient-public involvement and engagement (PPIE), hear from professionals and practitioners from an array of settings at the University, NHS and civic groups about the principles, ethics, challenges and solutions in this work, using examples from a range of health areas. You will develop skills in written and spoken communication of science to a lay audience - something that could help you in a clinical setting with patients or when interacting with the media, policy makers or engagement with general public. You will learn how clear, open and trusted conversations with people about your work can build a deeper involvement of patients and public with your research. In doing so, you will discover that high quality engagement and involvement tackles power dynamics, social injustice and inequalities. You will explore different engagement techniques including story-telling, arts-based methods, how to tailor your engagement to different audiences, and discover the power of listening to people. You’ll hear from University academics about what they did and how they knew it had worked for their research – in other words, the ‘impact’ it had. Finally, you will develop and present your own public engagement or involvement idea – along the way, you’ll be thinking about how to measure the impact of your creation and who to tell about it.
Students should gain a knowledge of how political ideas - such as freedom, equality, justice, or democracy - have been understood in different and incompatible ways, and how those different understandings have been the occasion for ideological or normative debates. Through an analysis of those concepts and the ways in which they are deployed, students will gain an insight into the nature of some of the most important historical and/or contemporary controversies within political theory.
This module will introduce you to the practice of mechanical engineering design as applied to one of a number of contrasting applications. It will also enable you to understand key management topics that are relevant to engineering practice, specifically Strategic Management, Marketing Management, and Operations Management.
This module provides students with an introduction to management, accounting and law applicable to the operations of an engineering-based organisation. Emphasis is placed upon introducing managerial knowledge and skills required to apply effective management techniques to engineering projects. This is set within the context of ethical and environmental concerns and the entrepreneurial, financial, team development and legal processes determining sustainable success in business. Students are taught and assessed within groups to address managerial decisions, accounting for engineering decision-making, law in engineering, marketing, human resource management, entrepreneurship, leadership, teamwork, project management and project risk management. This module is linked to FEEG2001 Systems Design and Computing and SESS2016 Ship Structural Design and Production where group design projects provide the basis for assessing Project Management, Project Risk Management, Leadership and Teamwork skills. This supports the development of effective management and group working skills within the context of designing and delivering a challenging engineering project. Guest lecturers from industry are invited to discuss their current industrial practice and project management experience. Case studies are used to illustrate key principles and to provide examples.
This course explores the use of mathematics as a toolbox for engineers need in order to calculate, model, visualise and design systems. The focus is on solving physical problems via equations, both analytically and numerically using computation, along with the development of representation and visualisation as a way of presenting solutions and designs.
These weekly workshops are designed to help engineering students with their Mathematics work. Although designed for engineering students, these workshops are open to all students who are studying a Mathematics MATH module, but who are not studying a degree within the Mathematical Sciences department. There is no summative assessment for this module
