*Conducted in terms:*2019L, 2020L

*Erasmus code:*13.3

*ISCED code:*0531

*ECTS credits:*6.5

*Language:*Polish

*Organized by:*Faculty of Chemistry

*Related to study programmes:*

# Physics A 1200-1FIZA2

The aim of the course is to teach the students of chemistry about the fundamental laws of physics in the field of electricity and magnetics. The course contains the lecture and classes with calculus. The lecture includes the demonstrations of experiments and theoretical explanation of physical phenomena.

The contents of the course covers the following subjects:

-Electrostatic field of systems of electric charges,

- electric dipole: permanent and induced.

- Gauss's law. Dielectrics, polarization.

-Conductors, capacitors,

-electric circuits, Kirchoff's laws.

-Magnetic field, due to moving charge, due to wire with current. Magnetic moment.

-Motion of a charge in magnetic field.

-Magnetic properties of matter; diamagnetism, paramagnetism, ferromagnetism.

-Electromagnetic induction law, self-induction,

-alternating currents.

-Maxwell's equations, wave equation, electromagnetic waves. -Maxwell's equations in a material medium.

-Propagation of electromagnetic waves in a material medium; reflection, refraction, diffraction, interference, coherence, state of a wave polarization. -

Interaction of an electromagnetic wave with molecules; emission, absorption, index of refraction

The classes with calculus are the mathematical illustration to the lecture. The students are taught how to solve the problems, discussed during the lecture, by use of the known mathematical apparatus. The classes take place in small groups of students, which solve the tasks together. Class attendance is compulsory. Three absences subject to excuse are allowed.

Lecture + classes = 60 hours

Tests = 10 hours

Domestic work 2-4 hours/week = 30-60 hours

Getting ready to tests and exam = 60 hours

Together = 160-190 hours

## Main fields of studies for MISMaP

## Type of course

## Mode

## Prerequisites (description)

## Course coordinators

## Learning outcomes

The student will:

KNOWLEDGE:

1. know how to describe and explain physical phenomena taught during the lecture

2. be able to understand the laws of nature

3. and to describe them in the language of mathematics

ABILITIES:

1. be able to use his knowledge in physics in his work as a chemist

2. be able to formulate problems in physics and to solve them

3. interpret the laws of physics and draw the appropriate conclusions

4. be able to perceive the casual relations in nature

ATTITUDE:

1. cooperate with other students while solving the problems together

2. ask questions dealing with physics

3. explain a problem in physics to his colleagues

## Assessment criteria

Credit classes:

- for a grade on the base of the written tests and student's activity during the classes

The tests take place on Thurdays at.17pm.

Positive grade at physics classes is required for admission to the exam

Credit the course:- written exam in form of one choice test, in which explanation of answers is demanded

## Practical placement

not demanded

## Bibliography

1.R. Resnick, D. Holliday, "Fizyka 2", PWN, Warszawa, 1998

2.B. Gadomska, B. Janowska-Dmoch, W. Gadomski, "Skrypt do Wykładu i Ćwiczeń rachunkowych z fizyki", tom II, Wydział Chemii U.W., 2005

3.A. H. Piekara, "Elektryczność i Magnetyzm", PWN, Warszwa, 1970

4.F.C. Crawford, "Fale", PWN, Warszawa, 1972

5.A. R. Von Hippel, " Dielektryki i Fale", PWN, Warszawa, 1963

6*.S. Striełkow, I. Elcin, I. Jakowlew, "Zbiór zadań z fizyki", PWN, Warszwa, 1965

7*.R. Purcell, ""Elektryczność i Magnetyzm", PWN, Warszawa, 1972

8*.R. Feynman, "Wykłady z Fizyki", tom I część II, PWN, Warszawa, 1969, 1974

## Additional information

Information on *level* of this course, *year of study* and semester when the course
unit is delivered, types and amount of *class hours* - can be found in course structure
diagrams of apropriate study programmes. This course is related to
the following study programmes:

Additional information (*registration* calendar, class conductors,
*localization and schedules* of classes), might be available in the USOSweb system: