Mechanics
Code  Completion  Credits  Range  Language 

17ABBMEC  Z,ZK  4  2P+2L  English 
 Garant předmětu:
 Patrik Kutílek
 Lecturer:
 Patrik Kutílek
 Tutor:
 Patrik Kutílek
 Supervisor:
 Department of Natural Sciences
 Synopsis:

Crosssection characteristics, body stress state ( Cauchy, geometry, compatibility and physical equations), linear elasticity theory, reaction, beam bending, normal and tangential stresses, deformation, torsion influence.
 Requirements:

Credit condition  50% presence, laboratory works and submit reports from laboratory works. Take the final exam and receive an mark AF. The minimum to pass the exam is fifty percent of the six questions.
The questions in the test are from the following areas:
Crosssection characteristics, body stress state ( Cauchy, geometry, compatibility and physical equations), linear elasticity theory, reaction, beam bending, normal and tangential stresses, deformation, torsion influence.
 Syllabus of lectures:

1. Basic physics equations, Newton's laws, statics and dynamics.
2. Force and torque effects and operations with them.
3. The balance, center of area and mass, equations of equilibrium.
4. Reactions, static systems, movement restrictions, reaction solutions.
5. Torque,moment of inertia, rotation.
6. Angular momentum, conservation of angular momentum.
7. Surface moment of inertia, principal moments of inertia, polar moment, Mohr's circle, ellipse of inertia.
8. Static analysis of beam, internal effects, kinematic method, statically indeterminate problems.
9. Mechanical properties of materials, testing of mechanical properties, stress and strain, Hooke's law.
10. Stress of the material, uniaxial and biaxial stress state, bending.
11. Torsion stress, polar moment.
12. Combined stress,
13. Critical load, the stability of rods.
14. Hardness test, adhesion, tribology.
 Syllabus of tutorials:

1. Basic physics equations, Newton's laws, statics and dynamics.
2. Force and torque effects and operations with them.
3. The balance, center of area and mass, equations of equilibrium.
4. Reactions, static systems, movement restrictions, reaction solutions.
5. Torque,moment of inertia, rotation.
6. Angular momentum, conservation of angular momentum.
7. Surface moment of inertia, principal moments of inertia, polar moment, Mohr's circle, ellipse of inertia.
8. Static analysis of beam, internal effects, kinematic method, statically indeterminate problems.
9. Mechanical properties of materials, testing of mechanical properties, stress and strain, Hooke's law.
10. Stress of the material, uniaxial and biaxial stress state, bending.
11. Torsion stress, polar moment.
12. Combined stress,
13. Critical load, the stability of rods.
14. Hardness test, adhesion, tribology.
 Study Objective:

Crosssection characteristics, body stress state ( Cauchy, geometry, compatibility and physical equations), linear elasticity theory, reaction, beam bending, normal and tangential stresses, deformation, torsion influence.
 Study materials:

1. Ranakrishna S., Huang Z., Kumar V., Batchelor W., Mayer J.: An Introduction to Biocomposites.
2. Freitas R.,A.: Nanomedicine  Biocompatibility.
3. Brown B., Smallwood R., Barber D.: Medical physics and biomedical engineering.
4. Kutílek, P., Žižka, A. Selected Chapters from Experimental Biomechanics. 1. Vydání.Praha: Česká technika  nakladatelství ČVUT, 2012, 165 s., ISBN 9788001051146.
 Note:
 Timetable for winter semester 2022/2023:
 Timetable is not available yet
 Timetable for summer semester 2022/2023:

06:00–08:0008:00–10:0010:00–12:0012:00–14:0014:00–16:0016:00–18:0018:00–20:0020:00–22:0022:00–24:00
Mon Tue Wed Thu Fri  The course is a part of the following study plans:

 Biomedical Technician  full time study in English (compulsory course)