Attestation Exam

Major: Applied Physics and Nanomaterials
Code of subject: 6.105.00.O.046
Credits: 1.50
Department: Applied Physics and Nanomaterials Science
Lecturer: Chairman of the examination commission. EC Secretary: Associate Professor Kogut ZO Other members of the examination commission
Semester: 8 семестр
Mode of study: денна
Learning outcomes: As a result of training, students must have the knowledge: - about the physical nature of the phenomena of the surrounding world, the physical properties of substances in different physical states, the influence of the external environment on the processes and the state of complex systems; - theoretical description of the properties and processes that occur in matter, construction of adequate models and prediction of the behavior of various physical objects; - theoretical and practical aspects of the main technological methods of obtaining and processing substances to ensure the desired properties of materials and products; - methods, software tools for computer design, modeling and calculation of physical properties and technological processes in the production, processing and modification of materials; - technical characteristics of typical and non-standard measuring systems, mastery of the method of setting up a physical experiment.
Required prior and related subjects: prerequisites - General Physics - Theoretical Mechanics and Continuum Mechanics - Electrodynamics and Field Theory - Vibrations and Waves - Fundamentals of Energy- and Resource-saving - Quantum Mechanics - Solid State Physics - Statistical Physics and Thermodynamics
Summary of the subject: Questions of the courses: general physics, quantum mechanics, solid state physics, theoretical mechanics and continuum mechanics, electrodynamics and field theory, statistical physics and thermodynamics, oscillations and waves, fundamentals of energy- and resource-saving
Assessment methods and criteria: Control event: - written component - 70% - oral component - 30%.
Recommended books: 1. Kucheruk I.M., Dushchenko V.P. Zahalna fizyka. Mekhanika. Molekuliarna fizyka. T.1. Kyiv.: Vyshcha shkola, 1991. – 463 s. 2. Kucheruk I.M., Horbachuk I.T., Lutsyk P.P. Kurs zahalnoi fizyky. T.3.-Kyiv: Tekhnika 2001. 3. Landsberh H.S. Optyka. – M.: Nauka, 1983. 4. Ponedilok H.V., Danylov A.B. Heometrychna optyka. Optychni prylady ta systemy. – Lviv: Vyd-vo NU “Lvivska politekhnika”, 2012. 5. Elektryka i mahnetyzm.- Lviv: Vyd. NU «Lvivska politekhnika», 2010. 6. Kurs fizyky. Pid redaktsiieiu Lopatynskoho I.Ie., - Lviv: Beskyd Bit, 2002. 7. Fedorchenko A.M., Teoretychna fizyka, t. 1. Klasychna mekhanika i elektrodynamika, – Kyiv.: Vyshcha shkola, 1992.– 535 s. 8. Vakarchuk I.O. Kvantova mekhanika. – Lviv. Vyd-vo Lvivskoho un-tu, 2012. – 871 s. 9. Lukiianets B.A. Ponedilok H.V. Rudavskyi Yu.K. Osnovy kvantovoi fizyky- Vyd-vo Natsionalnoho universytetu Lvivska politekhnika. Lviv, 2009 – 414 s. 10. Bolesta I.M. Fizyka tverdoho tila. — Lviv: Vydavnychyi tsentr LNU im.I.Franka, 2003. — 480 s.