Mathematics: linear algebra, matrix calculus, functions of one and more variables, differential and integral calculus, ordinary and partial differential equations. Basic knowledge of statics (especially equations of equilibrium and free body diagrams).

The graded course-unit credit requirements:
- active participation in seminars,
- individual preparation and presentation of seminar assignments,
- good results in the written test of basic knowledge.
The teacher will specify the specific form of assessment in the first week of the semester.

Attendance on the seminars is mandatory. A continuous control of the presence of students is conducted, including the control of activity and basic knowledge. Unexcused absence is grounds for not granting the course-unit credit.

The objective of the course is to equip the students with methodology for determination of strain and stress in various model bodies and risk assessment of basic limit states. Students are also introduced to theoretical background of the finite element method and its practical application to various problems of continuum mechanics.

Student will be able to categorize common types of tasks of strength of materials and is able to choose an appropriate methodology of problem solution in the given circumstances via the corresponding analytical solution. They will also learn how to use the finite element method for solving continuum mechanics problems in complicated two- and three-dimensional regions.

• Programme N-ENG-A Master's, 1. year of study, summer semester, compulsory
  
• Programme N-ENG-Z Master's, 1. year of study, summer semester, recommended
  

• Introduction of ANSYS Workbench
• Beam and truss elements
• Plane elements (plane-stress, plane-strain, axisymmetric body)
• Solid and shell elements
• Steady-state and transient thermal analysis
• Finding natural frequencies and mode shapes
• Dynamic analysis
• Solving of a given project under the supervision of lecturer
• Presentation of project work by students