Information sheet ECTS Syllabus
Course syllabus B-FYZ1 - Physics 1 (FEEIT - SS 2018/2019)
|University:||Slovak University of Technology in Bratislava|
|Course unit title:||Physics 1|
|Course unit code:|
|Mode of completion and Number of ECTS credits:||Exam (6 credits)|
Name of lecturer:
|prof. Ing. Julius Cirák, CSc. (examiner, instructor, lecturer, person responsible for course, tutor) - slovak, english |
doc. Ing. Peter Dieška, CSc. (instructor) - slovak
RNDr. Juraj Chlpík, PhD. (instructor) - slovak, english
RNDr. Soňa Kotorová, PhD. (instructor) - slovak, english
Ing. Patrik Novák, PhD. (instructor)
Ing. Katarína Sedlačková, PhD. (instructor) - slovak, english
doc. Ing. Ján Vajda, CSc. (examiner, instructor, lecturer, tutor) - slovak
RNDr. Mária Valková (instructor) - slovak
Mgr. Marek Vančo, PhD. (instructor)
Ing. Tomáš Váry, PhD. (instructor)
Ing. Ivan Zelenay, CSc. (instructor) - slovak, english
Learning outcomes of the course unit:
|The aim of the course is to revise and deepen knowledge of students in selected parts of secondary school physics, which form inevitable basis for subsequent physical courses of bachelor study program. Particular emphasis is put on development of students ability to apply this knowledge in creative solving of simple problems using secondary school level mathematics.
To teach students how to use the vector algebra in solving physical and technical problems. To gain basic experimental skills in laboratory.
Prerequisites and co-requisites:
Position vector of the mass point. Uniform motion and uniformly accelerated motion, determination of the equation of straight line and parabola used for description of mass point motion. Velocity and acceleration vectors, circular motion, angular displacement, angular velocity and angular acceleration,
Concept of force and its application in solving the problems of mechanical stability, addition of forces as vector quantities, vector resolution in two perpendicular components, vector coordinates in reference frame. Dynamics of mass point, Newton's laws, impulse, linear momentum, work, power. Potential and kinetic energy, the principle of conservation of mechanical energy. System of particles, the center of mass. Mechanics of rigid body. Rotational motion of rigid body, kinetic energy, moment of inertia. Equations of motion and conditions of rigid body equilibrium.
Mechanics of fluids, pressure, Bernoulli's equation. Amount of substance, Avogadro's constant, heat capacity, thermal expansion. Kinetic theory of gases. Internal energy, work, heat. 1st and 2nd laws of thermodynamics, the Carnot cycle, entropy.
|Recommended or required reading:|
Planned learning activities and teaching methods:
Weekly: lectures - 2 hours, tutorials and laboratory practicals - 3 hours.
Assesment methods and criteria:
marking laboratory protocols
marking current tests during the term
solving physical problems and tasks
Language of instruction:
There is no compulsory work placement in the course unit.
Last modification made by RNDr. Marian Puškár on 04/09/2018.