RC1-The student will be able to apply advanced computational knowledge and tools to solve unfamiliar problems in the field of Mechanical Engineering.
RC2-The student will be able to plan, calculate and design systems, products, processes, installations and plants in the field of Mechanical Engineering, taking into account principles of universal accessibility and sustainability.
RC3-The student will be able to carry out R&D&I projects and work on products, processes and methods in the field of Mechanical Engineering.
RC4-The student will be able to apply experimental methodologies and tools to the analysis of mechanical problems with competence and confidence.
RC5- The student will be able to apply the knowledge acquired and their problem-solving skills in new or unfamiliar environments within multidisciplinary contexts related to their area of study.
RCO1-The student will learn analytical and numerical mathematical methods for solving systems of equations that govern various phenomena in the field of Mechanical Engineering.
RCO2-The student will understand the mechanical behaviour of metal alloys and other structural materials for the calculation and design of structures in mechanical systems.
RCO3-The student will learn the fundamentals for performing complex analyses of deformable mechanical systems in statics and dynamics using computational methods.
RCO4-The student will understand the fundamentals and use computational data analysis techniques to identify the variables and phenomena underlying manufacturing.
RCO5-The student will learn the fundamentals of analysing and designing mechanical components under fatigue or fracture failure criteria and planning appropriate product testing.
RCO6-The student will learn the fundamentals for analysing plastic deformation processes.
RCO7-The student will learn the fundamentals of designing complex mechanical systems, taking into account different design and failure criteria.
RCO8-The student will learn the fundamentals of designing guided land transport systems for people and goods.
RHE1-The student will acquire the ability to work constructively in a team.
RHE2-The student will acquire the ability to communicate ideas, knowledge and developments orally and/or in writing.
RHE3-The student will acquire the ability to continue their training in a self-directed or autonomous manner.
RHE3-The student will acquire the ability to continue their training in a self-directed or autonomous manner.
RHE4- The student will acquire the ability to integrate knowledge and formulate judgements based on information that, while incomplete or limited, includes reflections on social and ethical responsibilities such as respect for human rights, democratic values and equality among human beings.
RHT1- The student will acquire the ability to analyse the kinematics and dynamics of serial robots and simple parallel manipulators, and to plan operations and trajectories.
RHT2- Students will acquire the ability to apply and design efficient algorithms to solve mathematical models of real physical systems in the field of Mechanical Engineering.
RHT3- The student will acquire the ability to design a mechatronic system that integrates a mechanical system model and a control system to perform motion control tasks.
RHT4-The student will acquire the ability to analyse a complex mechanical system subjected to dynamic stresses and perform experimental modal analyses.
RHT5- Students will acquire the ability to manage the technological research process, new product development and industrial innovation in the field of Mechanical Engineering.
RHT6- Students will acquire the ability to carry out a mechanism project using one of the methods of structural synthesis and optimal dimensioning.
