Be able to apply physical principles, fundamental abstractions, and modelling techniques in the analysis of electrical power and energy components, systems, networks, and markets, also including renewable and low-carbon technologies
Have developed and demonstrated electrical engineering laboratory skills through simulation of electrical power systems using software tools as well as through real-life experiments on power system components and systems
Be able to demonstrate mastery of fundamental knowledge of mathematical and engineering techniques and basic optimisation tools for electrical power system and energy market applications
Be conversant with, and able to discuss broad issues influenced by electrical power system engineering, such as the energy trilemma of affordability, reliability and sustainability, internet-related privacy and security matters, and functioning and ethical aspects of the electricity sectors and relevant businesses and stakeholders
Have developed and mastered effective verbal and written communication skills, including for public presentations and professional technical reports, in power and energy systems and the broader electrical engineering domain.