Physics

Major: Robotics and Industrial Engineering
Code of subject: 6.131.07.O.014
Credits: 8.00
Department: General Physics
Lecturer: Associate Professor Ihor Myronovych Kravchuk
Semester: 2 семестр
Mode of study: денна
Мета вивчення дисципліни: 1. to create a reliable scientific foundation for the future specialist on which his further special training is based; 2. to give the student the opportunity to orient himself in the main physical theories and the limits of their applicability, model approaches, and teach them to use them physically competently; 3. form the skills of planning, carrying out and processing the results of measurements of physical quantities and interpretation of the obtained results of the experiment, including assessment of their reliability and measurement errors; 4. to form a holistic scientific outlook in the field of physics; 5. to help navigate the flow of scientific and technical information;
Завдання: A person's ability to solve complex specialized tasks and practical problems in a certain field of professional activity or in the learning process, which involves the application of certain theories and methods of relevant sciences and is characterized by the complexity and uncertainty of conditions. The study of physics involves the formation of competencies in students: General competences: 1. ZK01. Ability to apply knowledge in practical situations. 2. ZK02. Ability to communicate in the national language both orally and in writing. 3. ZK03. Skills in using information and communication technologies. 4. ZK04. Ability to search, process and analyze information from various sources. 5. ZK05. Skills of performing safe activities. 6. ZK06. The desire to preserve the environment. 7. ZK07. Ability to work in a team. 8. ZK08. Ability to adapt to new situations and make decisions. 9. ZK09. Ability to communicate in a foreign language; 10. ZK10. The ability to realize the need for lifelong learning in order to deepen the acquired and acquire new professional knowledge. Professional competences: 1.FC1. Ability to analyze materials, structures and processes based on the laws, theories and methods of mathematics, natural sciences and applied mechanics. 2.FC2. The ability to evaluate the performance parameters of materials, structures and machines in operational conditions and find appropriate solutions to ensure a given level of reliability of structures and processes, including in the presence of some uncertainty. 3.FC3. The ability to conduct a technological and technical-economic evaluation of the effectiveness of the use of new technologies and technical means. 4.FC4. The ability to make the optimal selection of technological equipment, complete set of technical complexes, have a basic understanding of the rules of their operation. 5.FC5. Ability to perform technical measurements, receive, analyze and critically evaluate measurement results.
Learning outcomes: The student must show the following program learning outcomes: Knowledge (Knowledge): 1. ЗН2. Know physics at the level necessary to solve typical problems and problems of mechanical engineering, industrial engineering, materials science and foundry. Including: 1) to know the basic physical concepts, quantities, phenomena and laws of physics, which are necessary for the subsequent study of special disciplines; 2) know the units of measurement of basic physical quantities and be able to use the method of dimensional analysis when checking the obtained analytical formulas; 3) understand the physical nature of the processes used in the specialist's professional activity, and be able to single out the most important of them; 4) have a formed scientific outlook and scientific style of thinking; 5) be able to independently plan and conduct a simple physical experiment, work out and analyze its results; 6) be able to use commonly used measuring devices for measuring linear dimensions, mechanical, thermodynamic, electrical and optical quantities; 7) have developed skills in analyzing the behavior of physical systems and solving problems from various fields of physics related to solving engineering problems in the future in accordance with the training profile and in the future conduct computer modeling of the behavior of the studied systems; 8) have a broad theoretical training in order to help students apply new, modern physical ideas and principles in their professional activities; 9) Develop, plan, implement methods of organizing safe activities in the field of mechanical engineering, industrial engineering, materials science and foundry. 10) have a formed ecological and ethical culture, skills in forecasting the consequences of specific technical solutions for the environment; 11) have formed skills of unconditional compliance with safety rules when working with equipment at work and at home. Skills (Skills): 1. UM1. Be able to apply modern information technologies and use Internet resources. 2. UM4. To be able to apply knowledge about the basic principles and methods of measuring physical quantities and basic technological parameters to justify the choice of measuring instruments and evaluation of their metrological characteristics. 3. UM5. Develop and use materials science technologies taking into account requirements for environmental protection. 4. UM12. The ability to apply knowledge of the Ukrainian language for professional communication and work with scientific and technical sources. Communication (COM) 1. COM1. Give answers, explain, understand explanations, discuss, report in the state language at a level sufficient for professional activity; 2. KOM2. Give answers, explain, understand explanations, discuss, report in a foreign language at a level sufficient for understanding.
Required prior and related subjects: Preliminary training disciplines Physics (school program) Mathematics (school program) Chemistry (school program) Accompanying and subsequent training disciplines Theoretical mechanics, part 1 Higher mathematics, part 1 (Linear algebra, analytic geometry, mathematical analysis) Chemistr
Summary of the subject: The physics course consists of 60 hours of lectures, 15 hours of practical and 60 hours of laboratory classes in the II semester. The lecture course covers eight chapters, in which the physical foundations of mechanics, molecular physics and thermodynamics, electrostatics, direct current, electromagnetism, wave optics, quantum nature of radiation, elements of solid state physics are outlined. Laboratory work in the II semester is performed in the mechanical-molecular laboratory, in the electrical and optical laboratories. At the end of the II semester, students take an exam.
Опис: Topic 1: Physical foundations of mechanics Topic: Physical foundations of the mechanics of translational motion Topic: Physical foundations of the mechanics of rotational motion Topic 2: Oscillations and waves Topic 3: Molecular-kinetic theory of ideal gases Topic 4: Thermodynamics Topic 5: Electrostatics Topic 6: Electric field in matter Topic 7: Direct electric current. Topic 8: Electromagnetism Topic 9: Wave optics Topic 10: Corpuscular-wave dualism of radiation Thermal radiation Topic 11: Elements of the physics of the atomic nucleus
Assessment methods and criteria: Description of methods for assessing the level of achievement of learning outcomes 1. Examination for admission to laboratory work (oral and written tests) 2. Examination during the defense of laboratory work (oral and by means of written tests) 3. Checking calculation and graphic works 4. Exam - written form (questions and tasks - written answers, and online tests). 5. The exam has an oral component
Критерії оцінювання результатів навчання: Current control (PC) Laboratory classes 10 points Written test control 1 and 2 5+5 = 10 points RGR 10 points Examination control written component 60 points oral component 10 points A total of 100 points per discipline
Порядок та критерії виставляння балів та оцінок: 100–88 points – (“excellent”) awarded for a high level of knowledge (some inaccuracies are allowed) of the educational material of the component contained in the main and additional recommended literary sources, the ability to analyze the phenomena being studied in their interrelationship and development, clearly, succinctly, logically, consistently answer the questions, the ability to apply theoretical provisions when solving practical problems; 87–71 points – (“good”) is awarded for a generally correct understanding of the educational material of the component, including calculations, reasoned answers to the questions posed, which, however, contain certain (insignificant) shortcomings, for the ability to apply theoretical provisions when solving practical tasks; 70 – 50 points – (“satisfactory”) awarded for weak knowledge of the component’s educational material, inaccurate or poorly reasoned answers, with a violation of the sequence of presentation, for weak application of theoretical provisions when solving practical problems; 49–26 points – (“not certified” with the possibility of retaking the semester control) is awarded for ignorance of a significant part of the educational material of the component, significant errors in answering questions, inability to apply theoretical provisions when solving practical problems; 25-00 points - ("unsatisfactory"
Recommended books: Recommended Books Basic 1. I.M. Kucheruk, I.T. Gorbachuk, P.P. Lutsik General course of physics. In 3 h. Volume 1. Mechanics. Molecular physics and thermodynamics / I.M. Kucheruk, I.T. Gorbachuk, P.P. Lutsik - Kyiv.: Technika, 1999. - 536p. 2. I.M. Kucheruk, I.T. Gorbachuk, P.P. Lutsik General course of physics. In 3 hours. Volume 2. Electricity and magnetism / I.M. Kucheruk, I.T. Gorbachuk, P.P. Lutsik - Kyiv.: Technika, 2001. - 452p. 3. I.M. Kucheruk, I.T. Gorbachuk General course of physics. In 3 h. Volume 3. Optics. Quantum physics / I.M. Kucheruk, I.T. Gorbachuk – Kyiv.: Technika, 1999. – 520p. 4. P.M. Bugloss. Physics for universities. P.M. Bugloss. - Kyiv.: Irpin: Perun, 2005. - 864 p. Auxiliary 1. Saveliev I.V. Physics course in 3 hours, Vol. 1. Mechanics, molecular physics / I.V. Saveliev - M.: Nauka, 1989. - 350 p. 2. Saveliev I.V. Physics course in 3 hours, Vol. 2. Electricity, oscillations and waves, wave optics / I.V. Saveliev - M.: Nauka, 1989. - 462 p. 3. Saveliev I.V. Physics course in 3 hours, Vol. 3. Quantum optics, atomic physics, solid state physics, atomic nucleus and elementary particle physics / I.V. Saveliev - M.: Nauka, 1987. - 320 p. 4. Detlaf A.A., Yavorsky B.M. Physics course. Study allowance for university students A.A. Detlaff, B.M. Yavorsky. - M.: Higher. Shk., 1989. – 608 p. 5. Physical workshop. Electricity and optics. under the editorship YOU. Iveronova - M.: Nauka, 1968. - 806p. 6. Volkenstein V.S. A collection of problems for the general course of physics. V.S. Volkenstein. - M.: Nauka, 1973. - 380p. 9. Electronic information resources Course in the Virtual Learning Environment of Lviv Polytechnic University: I.M. Kravchuk Electronic educational and methodological complex "Physics" for students of the Institute of Engineering Mechanics and Transport at the National Academy of Sciences of the Russian Academy of Sciences, 2017, http://vns.lpnu.ua/course/view.php?id=2616 http://vns.lpnu.ua/course/view.php?id=2623 Additional materials Laboratory practice in physics. Part 1. http://imfn.lviv.ua/zf/?page_id=188 Laboratory practice in physics. Part 2. http://imfn.lviv.ua/zf/?page_id=189 Laboratory practice in physics. Part 3. http://imfn.lviv.ua/zf/?page_id=190
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