Data wydruku: 22.11.2016 17:31 Strona 1 z 2 Subject name Physics

Subject name
Physics II
Subject code
M:07001W1
Faculty
Department of Physics of Electronic Phenomena
Course name
Mechanical Engineering
Learning area
technical sciences
Learning profile
general academic profile
Study year
1
Type of subject
Obligatory
Study semester
2
Study level
undergraduate studies
ECTS
3.0
Number of ECTS
credits
Learning activity of student
ch
Participation in didactic classes included in study plan
30
Participation in consultation hours
sh
2
Self-study hours
43
Sum
Name of lecturer
32
43
Total number of study hours
75
Number of ECTS credits
3.0
dr Małgorzata Franz (Main teacher)
Teachers:
dr Małgorzata Franz
Subject objectives
The aim of the course is to acquaint students with the issues of modern physics.
Learning outcomes
Mode of delivery
Course outcome
Subject outcome
Method of veryfication
K_U10
The student can schedule a
physical experiment and make a
correct analysis of the
experimental results.
[SU1] Assessment of task
fulfilment
K_W02
Lecture contents (together with
the I term course) covers the
range of suggested topics
[SW1] Assessment of factual
knowledge
K_U01
Student applies knowledge of
[SU2] Assessment of ability to
atomic physics, solid state and
analyze information
atomic nucleus physics, and
solves problems that enable
understanding of modern physics.
Identifies ways to evaluate
experimental data including
calculation of errors. Student
knows how to deal with apparatus.
at the university
Prerequisites
Knowledge of the basic laws of physics, the ability to use calculus, basic knowledge of handling simple
measuring instruments (ammeter, voltmeter)
Recommended
components
No recomendations
Subject contents
LECTURE Corpuscular character of radiation: black body and real body radiation, photoelectric and Compton
effect, creation of electron-positron pair. Quantum physics: Bohr model of hydrogen atom, de Broglie
waves, the Heisenberg uncertainty principle, the Schrödinger wave equation, X-rays Elements of solid-state
physics: structure of solids, methods for investigation of solid structure, band structure of solids, electric
conductivity of metals, superconductivity, intrinsic and doped semiconductors, junctions and their
applications: LED, laser. Hall’s effect. Elements of nuclear physics: properties of nuclei, nuclear forces,
models of nucleus, nuclear reactions, fission and fusion reactions, applications of isotopes, nuclear reactor.
EXCERCISE Solving problems illustrating corpuscular character of electromagnetic radiation. Black body
radiation. Photoelectric effect. Compton effect. Elements of quantum mechanics: Bohr model of hydrogen
atom, de Broglie waves, uncertainty principle, Schrödinger equation for the infinite potential well. X-rays.
Elements of nuclear physics: decay law, activity. Radiation-matter interaction, nuclear reactions.
EXPERIMENTS (examples) Determination of the acceleration due to gravity using a simple pendulum,
determination of the coefficient of linear expansion of solids, an investigation of the pressure dependence of
the boiling-point of water, determination of the ratio of specific heats κ=cp/cv of air, determination of the
coefficient of rigidity of a wire using dynamic Gauss’ method. Examination of longitudinal sound waves in
the rods, measurement of sound velocity in air, measurement of the focal length of lenses using Bessel’s
method, measurement of the absorption coefficient for γ- rays.
Data wydruku:
08.03.2017 00:33
Strona
1 z 2
Recommended
and required
reading
Required reading
1. Cz. Bobrowski, Fizyka- krótki kurs, WNT Warszawa 1979, 1993 2. B. Jaworski, A. Dietłaff, Krótki kurs
fizyki, tom 1, 2, 3, PW Warszawa 1974 3. J. Massalski, M. Massalska, Fizyka d/a inżynierów, tom 1, 2,
WNT Warszawa 1979 4. Halliday, Resnick, Fizyka tom 1, 2, PWN Warszawa 1972 5. K.Kozłowski,
R.Zieliński, I laboratorium z fizyki cz.1, PG Gdańsk 2003
Recommeded reading
1. Fizyka na Politechnice Gdańskiej - materiały pomocnicze (http://www.mif.pg.gda.pl/kfze/wyklady/
wyklady.html#SKRYPT) 2. W. Kolka, Zadania z wybranych działów fizyki, cz.1 i 2, Wydawnictwo PG
Gdańsk 1988 3. M. Cedrik, Zadania z fizyki, PWN Warszawa 1975
Lesson type and
method of
instruction
Lesson type
Number of study hours
Lecture
Tutorial
Laboratory
Project
Seminar
15.0
0.0
15.0
0.0
0.0
Total number of study hours per semester
included in study plan
30
e-learning hours included: 0.0
Assesment
methods and
criteria
Subject passing criteria
Passing threshold
Percentage of the
final grade
100.0
50.0
50.0
50.0
Laboratory final grade
Lecture credit
Example issues / example questions / tasks being completed
Language of
instructions
Polish
Work placement
Not applicable
Data wydruku:
08.03.2017 00:33
Strona
2 z 2