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Selected Topics on Physics II - NUFY037

Title:	Vybrané partie z fyziky II
Guaranteed by:	Laboratory of General Physics Education (32-KVOF)
Faculty:	Faculty of Mathematics and Physics
Actual:	from 2019
Semester:	winter
E-Credits:	3
Hours per week, examination:	winter s.:2/0, Ex [HT]
Capacity:	unlimited
Min. number of students:	unlimited
4EU+:	no
Virtual mobility / capacity:	no
State of the course:	taught
Language:	Czech
Teaching methods:	full-time
Teaching methods:	full-time

Guarantor:	doc. RNDr. Martin Vlach, Ph.D.
Classification:	Physics > Teaching
Co-requisite :	NUFY036
Pre-requisite :	NUFY014

Opinion survey results Examination dates WS schedule Noticeboard

Annotation -

Last update: T_KVOF (18.05.2001)

This course is devoted mainly to the solid state physics, its structure and properties of the materials. For the students of 4th year of the Education studies.

Aim of the course -

Last update: T_KVOF (28.03.2008)

This course is devoted mainly to the solid state physics, its structure and properties of the materials.

Course completion requirements - Czech

Last update: doc. RNDr. Martin Vlach, Ph.D. (07.09.2021)

Ústní zkouška.

Literature - Czech

Last update: doc. RNDr. Martin Vlach, Ph.D. (07.09.2021)

1. V. Frei: Fyzika pevných látek. SPN Praha, 1978

2. E. Svoboda, R. Bakule: Molekulová fyzika. Academia Praha, 1992

3. A. Dekker: Fyzika pevných látek. Academia Praha, 1966

4. P. Kratochvíl, P. Lukáč, B. Sprušil: Úvod do fyziky kovů I.. SNTL Praha, 1984

Teaching methods - Czech

Last update: doc. RNDr. Martin Vlach, Ph.D. (07.09.2021)

Přednáška.

Requirements to the exam - Czech

Last update: doc. RNDr. Martin Vlach, Ph.D. (07.09.2021)

S ohledem na individuální výuku je podmínkou připuštění ke zkoušce daná procentuální účast. Zkouška je ústní v termínu po dohodě s vyučujícím.

Syllabus -

Last update: T_KVOF (26.05.2003)

1. Definition of solid, crystalline solids, structure of crystalline solids, crystallographic systems, Bravaise´s lattices, operations of symmetry, Miller´s indices of planes and directions

2. X-ray structure analysis of crystalline solids, Bragg equation, Laue-method and Debye-Scherrer- metod

3. Crystal bindings

4. Crystal lattice defects, classification of crystal lattice defects, equilibrium concentration of vacancies, edge and screw dislocation, dislocation slip, mechanical properties of solids

5. Thermal properties of crystals, lattice vibrations, Dulong-Petit law, Einstein and Debye theories of specific heat

6. Binary isobaric phase diagram, condition of phase equilibrium, mechanical mixture of components, binary phase, molar free mixing enthalpy, molar free mixing energy, model of nearest neighbours pair binding, tangent construction of isobaric binary equilibrium state diagram, eutectic diagram, peritectic diagram, diagram of Fe-C

7. Electron structure of crystalline solid, Sommerfeld model, Kronig-Penney model - base of bands theory of crystalline solids, its exploitation to the explanation of crystalline solids properties