2023_24
Educational guide 
School of Engineering
A A 
english 
Degree in Mathematical and Physical Engineering (2021)
 Subjects
  DIFFERENTIAL GEOMETRY AND APPLICATIONS
   Learning outcomes
Type A Code Learning outcomes
 CE1 Get to know the basic description of curves and parameterization and Frenet formulas
Comprehend the local description of surfaces, fundamental shapes and Gauss-Weingarten equations
Learn about Gauss's theorem and the concepts of parallel transport and covariant derivative
Undertand differentiable manifold and tensor field on a manifold concepts
Learn about simple tensor fields and curvature tensor
Learn about some of the most important applications of differential geometry to problems in physics and engineering
 CE2 Understand the concepts of differentiable manifold and tensor field on a manifold
Learn about simple tensor fields and curvature tensor
 CE3 Learn about some of the most important applications of differential geometry to problems in physics and engineering
 CE4 Learn about some of the most important applications of differential geometry to problems in physics and engineering
 CE9 Know the global properties of flat curves rotation theorem
Learn about the concept of oriented surface and the geometric definition of area
Type B Code Learning outcomes
 CT1 Manage and communicate information clearly and effectively.
 CT3 Identify the situation as a problem in the field and be sufficiently motivated to face up to it
Follow a systematic method to divide a problem into parts, identify the causes and apply the knowledge specific to the discipline
Design a new solution by using all the resources necessary to cope with the problem.
Include the details of the proposed solution in a realistic model
Reflect on the model proposed, find shortcomings and suggest improvements
Type C Code Learning outcomes