Objectives of Programme's Learning Outcomes

• Master expertise.
• Have developed the knowledge and skills acquired in the previous cycle to a level that extends beyond the Bachelor's course in Physics, and which provides the basis for the development and implementation of original ideas in a professional context.
• Have acquired knowledge and a thorough understanding of specialist areas of physics in connection with mathematics and/or advanced laboratory practices required for these sectors.
• Have reached a level of knowledge and skill giving them access to the third cycle of the study programme / doctoral studies (only for two-year Master courses).
• Provide clear and accurate information.
• Share their knowledge and findings clearly and back them up rationally to specialist and non-specialist audiences.
• Grow personally and professionally.
• Have developed the skills that will enable them to continue to acquire knowledge independently.
• Have a creative and rigorous scientific approach
• Gather and interpret relevant scientific data and critically analyse it, distinguising working hypotheses of proven facts.
• Apply their knowledge, understanding and ability to solve problems in new or unfamiliar environments and in multidisciplinary contexts related to physical sciences.

Learning Outcomes of UE

- Understand the basic principles of some hadronic models
- Compute hadronic masses with a simple potential model

Content of UE

! This course is organized only in Q2 of the even years
- Introduction to the theory of quantum chromodynamics
- Quark model for hadrons: potential models and flux tube model
- Computational techniques for hadron spectroscopy

Prior Experience

- Quantum mechanics
- Special relativity

Type of Assessment for UE in Q2

• Presentation and/or works

Q2 UE Assessment Comments

Presentation of a special topic in strong connection with the lecture

Type of Assessment for UE in Q3

• Oral examination

Q3 UE Assessment Comments

Not applicable