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Course info
KME / SPM-E
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Course description
Department/Unit / Abbreviation
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KME
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SPM-E
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Academic Year
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2023/2024
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Academic Year
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2023/2024
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Title
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Student Project in Mechanics
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Form of course completion
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Pre-Exam Credit
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Form of course completion
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Pre-Exam Credit
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Accredited / Credits
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Yes,
5
Cred.
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Type of completion
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Combined
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Type of completion
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Combined
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Time requirements
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Tutorial
5
[Hours/Week]
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Course credit prior to examination
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No
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Course credit prior to examination
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No
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Automatic acceptance of credit before examination
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No
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Included in study average
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NO
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Language of instruction
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English
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Occ/max
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Automatic acceptance of credit before examination
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No
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Summer semester
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0 / -
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0 / -
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0 / -
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Included in study average
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NO
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Winter semester
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0 / -
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0 / -
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2 / -
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Repeated registration
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NO
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Repeated registration
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NO
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Timetable
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Yes
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Semester taught
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Winter + Summer
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Semester taught
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Winter + Summer
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Minimum (B + C) students
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1
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Optional course |
Yes
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Optional course
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Yes
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Language of instruction
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English
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Internship duration
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0
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No. of hours of on-premise lessons |
0
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Evaluation scale |
S|N |
Periodicity |
každý rok
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Periodicita upřesnění |
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Fundamental theoretical course |
No
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Fundamental course |
No
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Fundamental theoretical course |
No
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Evaluation scale |
S|N |
Substituted course
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None
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Preclusive courses
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N/A
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Prerequisite courses
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N/A
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Informally recommended courses
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N/A
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Courses depending on this Course
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N/A
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Histogram of students' grades over the years:
Graphic PNG
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XLS
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Course objectives:
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A student project within the scope of modern program-oriented education with a focus on the solution of problems of discrete and continuum mechanics. Under the guidance of a supervisor, the student will solve a simple, level-appropriate, comprehensive problem. Emphasis will be placed on self-study and individual work of the student.
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Requirements on student
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Requirements for credit:
Preparation of a report that would describe the problem solved by the student and summarise the relevance of obtained results. Presentation and defence of obtained results.
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Content
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A student project within the scope of modern program-oriented education with a focus on the solution of problems of discrete and continuum mechanics. Under the guidance of a supervisor, the student will solve a simple, level-appropriate, comprehensive problem. Emphasis will be placed on self-study and individual work of the student.
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Activities
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Fields of study
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Guarantors and lecturers
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Literature
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Basic:
Additional literature will be given in accordance with the project's topic.
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Recommended:
Doyle, Barry; Miller, Karol; Wittek, Adam; Nielsen, Poul M. F. Computational biomechanics for medicine new approches and new applications. 2015. ISBN 978-3-319-15503-6.
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Recommended:
Pletcher, Richard H.; Anderson, Dale A.; Tannehill, John C. Computational fluid mechanics and heat transfer. 3rd ed. Boca Raton : CRC Press, 2013. ISBN 978-1-59169-037-5.
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Recommended:
Barbero, Ever J. Finite element analysis of composite materials using Abaqus. Boca Raton : CRC Press, 2013. ISBN 978-1-4665-1661-8.
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Recommended:
Orden, Juan Carlos García; Goicolea, José M.; Cuadrado, Javier. Multibody dynamics : computational methods and applications. Dordrecht : Springer, 2007. ISBN 978-1-4020-5683-3.
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On-line library catalogues
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Time requirements
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Full-time form of study
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Activities
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Time requirements for activity [h]
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Contact hours
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65
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Presentation preparation (report) (1-10)
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10
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Individual project (40)
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50
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Total
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125
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Prerequisites
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Knowledge - students are expected to possess the following knowledge before the course commences to finish it successfully: |
- fundamentals of the mathematical theory of elasticity |
- good knowledge of the mechanics of particles, rigid bodies and systems of rigid bodies |
- good understanding of the basic principles of stress-strain analysis |
- understanding of the mechanics of composite materials |
- fundamentals of the mathematical theory of vibrations |
Skills - students are expected to possess the following skills before the course commences to finish it successfully: |
- ability to solve basic problems of mathematical theory of elasticity |
- ability to solve problems of mechanics of particles, rigid bodies and systems of rigid bodies |
- ability to perform basic stress-strain analysis |
- ability to solve problems involving composite materials |
Competences - students are expected to possess the following competences before the course commences to finish it successfully: |
N/A |
N/A |
N/A |
- ability to search and process information from various sources, creative use of information for his/her study and work
- ability to propose and verify hypotheses, use of various approaches for the solution of problems and verification of hypotheses
- ability to effectively use various learning strategies to acquire and process knowledge and information, seek and develop effective practices in his/her learning |
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Learning outcomes
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Knowledge - knowledge resulting from the course: |
- knowledge on how to solve problems of statics and dynamics involving mass particles, rigid bodies and systems of rigid bodies |
- knowledge on how to perform stress-strain analyses of simple components (tension, torsion, bending and their combinations) |
- knowledge on how to solve planar strain problems of isotropic and orthotropic materials |
- knowledge on how to apply strength conditions to particular problems |
- to become well versed in the mathematical theory of elasticity |
Skills - skills resulting from the course: |
- ability to solve problems of statics and dynamics involving mass particles, rigid bodies and systems of rigid bodies |
- ability to perform stress-strain analyses of simple components (tension, torsion, bending and their combinations) |
- ability to solve planar strain problems of isotropic and orthotropic materials |
- ability to apply strength conditions to particular problems |
Competences - competences resulting from the course: |
N/A |
N/A |
- ability to make independent and responsible decisions on the basis of a frame assignment
- ability to clearly and convincingly inform experts and laymen about the nature of particular problems and the proposal of methods for their solution |
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Assessment methods
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Knowledge - knowledge achieved by taking this course are verified by the following means: |
Project |
Skills - skills achieved by taking this course are verified by the following means: |
Seminar work |
Competences - competence achieved by taking this course are verified by the following means: |
Individual presentation at a seminar |
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Teaching methods
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Knowledge - the following training methods are used to achieve the required knowledge: |
One-to-One tutorial |
Self-study of literature |
Skills - the following training methods are used to achieve the required skills: |
Project-based instruction |
Self-study of literature |
Competences - the following training methods are used to achieve the required competences: |
Project-based instruction |
Individual study |
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