## Undergraduate study programme

Back Schedule Hrvatski## Physics I PE104

### ECTS **5** | P 45 | A 15 | L 15 | K 0 | ISVU 74036 | Academic year: 2017./2018.

**Course groups**

**Course lecturers**

BOŠNJAKOVIĆ DEJAN, Associate

JUKIĆ DINA, Associate

KVAČEK BLAŽEVIĆ ANITA, Associate

VARGA PAJTLER MAJA, Lecturer

## Course description

The course consists of two parts:

Mechanics: vectors; kinematics; dynamics; work; power; energy; system of particles; rigid body dynamics; (non)inertial systems; Newton's law of gravitation;harmonic oscillator; waves; fluid mechanics.

Thermodynamics: ideal gas law; kinetic theory of gases; laws of thermodynamics; Carnot's heat engines; entropy.

## Knowledge and skills acquired

During the course, students acquire the basic knowledge of operative machines and work principles, special knowledge of the norms and standards used in designing operative machines.

## Teaching methods

Lectures, problem solving, laboratory practice.

## Student requirements

Defined by the Student evaluation criteria of the Faculty of Electrical Engineering, Computer Science and Information Technology Osijek and paragraph 1.9

## Monitoring of students

Defined by the Student evaluation criteria of the Faculty of Electrical Engineering, Computer Science and Information Technology Osijek and paragraph 1.9

## Student assessment

Laboratory test, written and oral examination.

## Obligatory literature

**1.** Kulišić, Petar. Mehanika i toplina.Zagreb: Školska knjiga, 2011.

**2.** Keller, Frederick J. et al.. Physics (Classical and Modern). Mc Graw Hill, 1993.

**3.** P. Kulišić, Mehanika i toplina

**4.** P. Kulišić i dr, Riješeni zadaci iz mehanike i topline

## Recommended additional literature

**1.** R. P. Feynman, R. B. Leighton, M. Sands, The Feynman Lectures on Physics, The Berkeley Physics Course

## ECTS credits

An ECTS credit value has been added according to calculation of time required time studying and successful course completion.

## Examination methods

The final examination consists of the written and the oral part. Students can take the final examination after the completion of lectures and exercises.

## Course assessment

Conducting university questionnaires on teachers (student-teacher relationship, transparency of assessment criteria, motivation for teaching, teaching clarity, etc.). Conducting Faculty surveys on courses (upon passing the exam, student self-assessment of the adopted learning outcomes and student workload in relation to the number of ECTS credits allocated to activities and courses as a whole).

## Overview of course assesment

**Learning outcomes**

Upon successful completion of the course, students will be able to:

Upon successful completion of the course, students will be able to:

1. distinguish the fundamental physical quantities and units of measurement in the field of mechanics and thermodynamics

2. Interpret fundamental laws of mechanics and thermodynamics

3. Calculate and predict (on the basis of the laws of mechanics and heat) the physical size of interest

4. Integrate fundamental laws of mechanics and thermodynamics in solving problems related to electrical engineering

5. Assemble and use simple measuring instruments

6. interpret the measurement results of physical quantities of interest

**Export to Excel**

Student's activity | Workload | ECTS (Workload/30) | Learning outcomes Upon successful completion of the course, students will be able to: |
Teaching method |
Assessment method | Points | |
---|---|---|---|---|---|---|---|

AttendanceLectures, Auditory exercises, Laboratory exercises |
39 |
ECTS1.3
| - distinguish the fundamental physical quantities and units of measurement in the field of mechanics and thermodynamics- Interpret fundamental laws of mechanics and thermodynamics- Calculate and predict (on the basis of the laws of mechanics and heat) the physical size of interest
- Integrate fundamental laws of mechanics and thermodynamics in solving problems related to electrical engineering- Assemble and use simple measuring instruments- interpret the measurement results of physical quantities of interest | Lectures, Auditory exercises, Laboratory exercises | Attendance register. Mandatory attendance percentage is: 50%This percentage defines the minimum workload for the activity. The maximum is defined by the study programme. |
Min 2 |
Max 4 |

Practice – problem solving |
Workload 30 |
ECTS1
| - distinguish the fundamental physical quantities and units of measurement in the field of mechanics and thermodynamics- Interpret fundamental laws of mechanics and thermodynamics- Calculate and predict (on the basis of the laws of mechanics and heat) the physical size of interest
- Integrate fundamental laws of mechanics and thermodynamics in solving problems related to electrical engineering | Midterm exam | Evaluation of (written) exercises | Min 15 |
Max 30 |

Writing pre-lab write-ups, results analysis and writing laboratory reports |
Workload 27 |
ECTS0.9
| - distinguish the fundamental physical quantities and units of measurement in the field of mechanics and thermodynamics- Interpret fundamental laws of mechanics and thermodynamics- Integrate fundamental laws of mechanics and thermodynamics in solving problems related to electrical engineering- Assemble and use simple measuring instruments- interpret the measurement results of physical quantities of interest | Laboratory practice | Assessment of pre-lab write-ups, supervision of laboratory exercises, evaluation of written reports | Min 12 |
Max 25 |

Oral exam |
Workload 42 |
ECTS1.4
| - Interpret fundamental laws of mechanics and thermodynamics- Calculate and predict (on the basis of the laws of mechanics and heat) the physical size of interest
- Assemble and use simple measuring instruments | Oral exam | Assessment of student's answers | Min 15 |
Max 30 |

Homework |
Workload 6 |
ECTS0.2
| - Interpret fundamental laws of mechanics and thermodynamics- Assemble and use simple measuring instruments | Students need to thoroughly solve their homework and send them by email. | evaluating homework by carrying out a detailed analysis | Min 1 |
Max 5 |

additional tasks |
Workload 6 |
ECTS0.2
| - Interpret fundamental laws of mechanics and thermodynamics | students write a comprehension test at the beginning and end of the semester to test the understanding of fundamental physics phenomena. | checking solutions and exam grade | Min 0 |
Max 6 |

Σ Activities |
Σ Workload 150 |
Σ ECTS 5 | Σ Max 100 |