Course detail

Introduction to Mechanical Engineering

FSI-1SI-K Acad. year: 2023/2024 Winter semester

The course introduces students to the basic characteristics of mechanical engineering.
It will guide them through the life cycle of machines. It introduces them to the function of the basic types of machines.

Language of instruction

Czech

Number of ECTS credits

3

Rules for evaluation and completion of the course

Produce a professional essay dealing with a specific product, machine, product that is the result of mechanical engineering. The professional and stylistic quality of the work and the sources used are assessed. The choice of topic should reflect the student's future career interests. The assessment may include a test on the material presented.  


The teaching content is recommended. The form of replacing missed teaching is addressed by the use of video presentations.

Aims

The aim is to understand the essence of the work of mechanical engineer and to realize his professional responsibility. Understanding the process of developing new products or processes typical of mechanical engineering, such as machines, apparatus, equipment and technological processes.

The student will gain a comprehensive understanding of what mechanical engineering is and into what sub-disciplines it is divided. Based on this, he/she will better understand the importance of other subjects of the theoretical basis.

The study programmes with the given course

Programme B-STR-K: Engineering, Bachelor's
specialization STR: Engineering, compulsory

Type of course unit

 

Guided consultation in combined form of studies

9 hours, compulsory

Teacher / Lecturer

Syllabus


  1. Science, technology and engineering. Engineering disciplines, mechanical engineering. Engineering ethics.

  2. Methods of engineering work. Teamwork. Communication and presentation skills. Software tools

  3. Conceptual machine development, Formula Student race car design.

  4. Driving machines. Electric motors, internal combustion engines.

  5. Turbines, hydraulic and pneumatic propulsion machines. Hybrid drives.

  6. Compressors, pumps and other driven machines.

  7. Cooperation of driving and driven machines. Importance of gearboxes, clutches.

  8. Production machines (Machines for processing raw materials, materials and semi-finished products)

  9. Machines for transporting substances. Cranes, conveyors, in-house logistics.

  10. Transport machinery, motor vehicles, rolling stock, aircraft, ships.

  11. Energy equipment (electricity generation)

  12. Heating, ventilation, energy storage and environmental engineering.

  13. Control and regulation technology. Mechatronics. Industry 4.0. 

Guided consultation

17 hours, optionally

Syllabus


  1. Science, technology and engineering. Engineering disciplines, mechanical engineering. Engineering ethics.

  2. Methods of engineering work. Teamwork. Communication and presentation skills. Software tools

  3. Conceptual machine development, Formula Student race car design.

  4. Driving machines. Electric motors, internal combustion engines.

  5. Turbines, hydraulic and pneumatic propulsion machines. Hybrid drives.

  6. Compressors, pumps and other driven machines.

  7. Cooperation of driving and driven machines. Importance of gearboxes, clutches.

  8. Production machines (Machines for processing raw materials, materials and semi-finished products)

  9. Machines for transporting substances. Cranes, conveyors, in-house logistics.

  10. Transport machinery, motor vehicles, rolling stock, aircraft, ships.

  11. Energy equipment (electricity generation)

  12. Heating, ventilation, energy storage and environmental engineering.

  13. Control and regulation technology. Mechatronics. Industry 4.0.