Course Details

Technical Physics

Academic Year 2026/27

BBA101 course is part of 1 study plan

BPC-SIS / SI Winter Semester 1st year

The aim of the course is to acquire basic theoretical knowledge and practical knowledge and habits in the areas of physics: kinematics and dynamics of a mass point, rigid body mechanics, hydromechanics and mechanical oscillations and waves.

Credits

5 credits

Language of instruction

Czech

Semester

winter

Course Guarantor

Institute

Forms and criteria of assessment

course-unit credit and examination

Entry Knowledge

Content Prerequisites: Knowledge of high school physics is required.

Content Corequisites: Not required.

Aims

Professional knowledge

  • The graduate understands basic physical concepts and principles, including mechanics, kinematics and dynamics of a mass point, mechanics of a rigid body, hydromechanics, mechanical oscillations and waves, with an emphasis on applications in construction. He/she is able to connect theoretical knowledge with practical problems of building structures and materials. He/she knows the physical properties of building materials, the principles of statics, dynamics.

Professional skills

  • The student will learn to apply physical laws to solve specific problems and interpret the results of experiments. He/she will be able to work with laboratory equipment, make precise measurements and analyze data, including the interpretation of results.

General competencies

  • The graduate will be able to independently solve interdisciplinary tasks, effectively communicate technical information and cooperate in a team. He/she will have the ability to connect physical theories with their practical application in various fields. He/she has the ability for lifelong learning and adaptation to new technological and scientific knowledge.

Basic Literature

HALLIDAY, David, WALKER Jearl a Robert RESNICK. Fyzika. VUTIUM, 2014. ISBN 978-80-214-4123-1. (cs)
KUSÁK, Ivo a Zdeněk CHOBOLA. Modul 1 – Kinematika hmotného bodu, 2023. (cs)
KUSÁK, Ivo a Zdeněk CHOBOLA. Modul 2 – Dynamika hmotného bodu, 2023. (cs)
MARTINEK, Jan. Modul 3 – Mechanika tuhého tělesa. (cs)
CHOBOLA, Zdeněk a Vlasta JURÁNKOVÁ. Modul 4 – Mechanika deformovatelných těles. (cs)
PAZDERA, Luboš. Modul 5 – Mechanické kmítání a vlnění. (cs)
KUSÁK, Ivo a Miroslav LUŇÁK. Fyzika – Přehled látky a příklady pro studium na Fakultě stavební VUT v Brně. Brno: ECON, 2025. ISBN 978-80-86433-62-2. (cs)

Recommended Reading

KOKTAVÝ Bohumil. Mechanika hmotného bodu. Brno: CERM, 2006. ISBN 80-7204-474-5. (cs)
CHOBOLA, Zdeněk. Mechanika deformovatelných těles. Brno: CERM, 2001. (cs)
KOKTAVÝ Bohumil. Mechanické kmitání a vlnění. Brno: CERM, 1999. ISBN 80-214-1153-8. (cs)
HORÁK, Zdeněk, František KRUPKA a Václav ŠINDELÁŘ. Technická fyzika. Praha: SNTL, 1954. (cs)
HRABOVSKY, George. Classical Mechanics: The Theoretical Minimum. PENGUIN BOOKS, 2014. ISBN 9780141976228. (en)

Prerequisites

Content Prerequisites: Knowledge of high school physics is required.

Content Corequisites: Not required.

Offered to foreign students

Not to offer

Course on BUT site

Lecture

13 weeks, 2 hours/week, elective

Exercise

13 weeks, 2 hours/week, compulsory

Self-study

26 weeks, 1 hours/week

Individual preparation for an ending of the course

52 weeks, 1 hours/week