Physics, Part 2

Major: Cybersecurity
Code of subject: 6.125.00.O.017
Credits: 4.00
Department: General Physics
Lecturer: Professor of the Department of Physics, Candidate of Physical and Mathematical Sciences, Professor I.Ye. Lopatinsky Associate Professor of Physics, Candidate of Physical and Mathematical Sciences, Associate Professor M.M. Rudka
Semester: 2 семестр
Mode of study: денна
Learning outcomes: As a result of studying the discipline of Physics, part 2, the student must be able to demonstrate the following learning outcomes: - mastering the basic physical phenomena and laws of classical and modern physics - use the results of independent search, analysis and synthesis of information from various sources to effectively solve specialized problems of professional activity - critically comprehend the basic theories, principles, methods and concepts in teaching and professional activities - have methods of general scientific analysis in the field of information technology and information security As a result of studying the discipline, the student must be able to demonstrate the following program learning outcomes: - ability to adapt to new conditions, make decisions independently and demonstrate the ability to solve practical physical problems and tasks - ability to realize the need for lifelong learning in order to deepen the acquired and acquire new professional knowledge
Required prior and related subjects: Previous disciplines: Physics, part 1, Higher Mathematics, Part 1, Basics of information and cyber security, Programming technologies, part 1 Related disciplines: Higher Mathematics, Part 2, Programming technologies, part 2, Operating Systems
Summary of the subject: The course Physics, part 2 consists of 15 lectures and covers the following main parts (sections) of physics: magnetism, optics and atomic and nuclear physics. The application of the knowledge obtained by students is demonstrated in solving physical problems in practical classes and in conducting physical experiments in laboratory workshops in educational laboratories: Laboratory of Electrical and Magnetic Phenomena and Laboratory of Optics and Atomic Physics. In practical classes or in a virtual learning environment, students monitor the independent work of these sections of physics, and at the end of the semester an exam is held. In addition, students are expected to perform individual tasks in their calculation and graphic works. The semester assessment of students' knowledge of physics includes both the scores obtained for the results of the current control and the results of the written and oral components of the exam. Lecture 1 Magnetic field in vacuum. Induction Lecture 2 Magnetic field in vacuum. The effect of a magnetic field on moving charges Lecture 3 Magnetic field in matter Lecture 4 Electromagnetic induction Lecture 5 Fundamentals of Maxwell's theory for the electromagnetic field Lecture 6 Electromagnetic oscillations and waves Lecture 7 Geometric and wave optics. Interference of light Lecture 8 Wave optics. Diffraction, polarization and dispersion of light Lecture 9 Thermal radiation. Quantum nature of radiation Lecture 10 The hydrogen atom in Bohr's theory Lecture 11 Quantum-mechanical description of the state of atoms Lecture 12 Quantum-mechanical description of radiation and absorption spectra Lecture 13 Elements of quantum statistics and solid state physics. Semiconductors Lecture 14 Physics of the atomic nucleus Lecture 15 Nuclear reactions and elementary particles Practical training: №1 Magnetic field. Magnetic induction №2 The phenomenon of electromagnetic induction №3 Electromagnetic oscillations and waves №4 Laws of geometry and interference of light №5 Diffraction of light. Polarization of light №6 Thermal radiation and quantum optical phenomena №7 Hydrogen atom in Bohr theory and quantum mechanics №8 Elements of the physics of the atomic nucleus and elementary particles Laboratory classes: Study of the alternating current meter. Study of forced electric oscillations in an oscillatory circuit. Determination of refractive index and concentration of aqueous solutions using a refractometer. Determination of the radius of curvature of the lens using Newton's rings. Determination of the wavelength of coherent laser radiation and the period of the diffraction grating. Study of serial regularities in the spectrum of hydrogen radiation and determination of the Planck constant. Determination of the band gap of semiconductors according to the temperature dependence of their conductivity. Measurement of exposure dose rate of natural radiation background. Individual work: Execution of calculation and graphic works Preparation for training sessions and control activities
Assessment methods and criteria: Evaluation methods: - assessment by teachers (supervisors) of the quality and completeness of students' performance of laboratory work - control of independent work of students during the semester by performing three test tasks in the sections "Magnetism", "Optics", "Atomic and Nuclear Physics" and assessment at the end of the semester of individual systematic elaboration of practical tasks - assessment of students' performance of individual calculation and graphic works - performance by students (in writing or in a virtual learning environment) of examination test tasks and passing the oral component of the exam Evaluation criteria: Semester assessment of students' knowledge of Physics, part 2 is the sum of the results of current and examination control. The maximum semester grade is 100 points, of which: • maximum score for current control - 40 points • maximum score for the examination control - 60 points Assessment of the results of the current control of knowledge of students contains the total number of points obtained for the performance during the semester of the following types of work: - test 1 - 5 points (maximum) - test 2 - 5 points (maximum) - test 3 - 5 points (maximum) - independent work - 5 points (maximum) - performance of laboratory works - 10 points (maximum) - performance of calculation - graphic work - 10 points (maximum) Assessment of the results of examination control of knowledge of students contains the total number of points obtained for: - performance of test tasks of the written component - 40 points (maximum) - answers on the oral component - 20 points (maximum)
Recommended books: Literature for the theoretical course basic: - Lopatinsky I.Ye., Zachek I.R., Ilchuk G.A., Romanyshyn B.M. Physics. Textbook. - Lviv: Afisha, 2005. -394 p. auxiliary: - Vaidanich V.I., Pentsak G.M. Physics. Tutorial. - Lviv: National Forestry University of Ukraine, 2005. - 664 p. - Benson, Harris University physics. - Printed in USA, 1991. - 530-dc20 - Detlaf A.A., Yavorsky B.M. Physics course. -M .: Higher School, 1989. -608 p. - Trofimova T.I. Physics course. -M .: Higher School, 1990. - 478 p. Literature for practical classes basic: - Andreyko A.M. etc. Collection of problems in physics: textbook. manual. - 2nd ed., Ext. and processing. / For ed. Lopatinsky I.Ye., Andreyko A.M. - Lviv: Lviv Polytechnic National University Publishing House, 2010.- 320 p. - Lopatinsky I.Ye. etc. Collection of problems in physics: textbook. manual / I.Ye. Lopatinsky, I.R. Zachek, S.O. Yuriev et al. - Lviv: Lviv Polytechnic Publishing House, 2016. - 244 p. - Lopatinsky I.Ye. Collection of problems in physics: textbook. manual / I.Ye. Lopatinsky, I.R. Zachek, S.O. Yuriev et al. - Lviv: Lviv Polytechnic Publishing House, 2021. - 244 p. auxiliary: - COLLECTION OF PROBLEMS IN PHYSICS WITH SOLUTIONS: Textbook / Lopatinsky I.Ye., Zachek I.R., Bilenka O.B., Gonchar F.M., Gorina O.M., Karkulovskaya M.S., Kashuba A.I., Kolomiets O.V., Kravchuk I.M., Loboyko V.I., Rybak O.V., Romanyuk M.M., Rudka M.M., Semkiv I.V., Tovstyuk N. K., Ukrainets N.A., Yuriev S.O., Yushchuk S.I. - Lviv: 2020. - 260p. - Lopatynsky I.Ye., Zachek I.R., Sereda V.M., Krushelnytska T.D., Ukrainets N.A. Collection of problems in physics. - Lviv: LP NU Publishing House, 2003.- 124 p. - Volkenstein V.S. Collection of problems on the general course of physics.-M .: Nauka, 1979. -464с. Literature for laboratory classes basic: - Laboratory workshop on physics. Part 2. Electricity and magnetism / Ed. Lopatinsky I.Ye. - Lviv: Lviv Polytechnic National University Publishing House, 2006. - 204 p. - Rudka M.M. etc. Laboratory workshop on physics. Part III. Optics and atomic physics: Textbook / Ed. Lopatinsky I.Ye. - Lviv: Lviv Polytechnic National University Publishing House, 2006. - 264 p. auxiliary: - Physical workshop. For order. Dushchenko V.P.-Kyiv: Higher School, 1981-1984, part 1-2.