Human Body Biomechanics
Keywords |
Classification |
Keyword |
OFICIAL |
Biomedical Engineering |
Instance: 2020/2021 - 2S
Cycles of Study/Courses
Acronym |
No. of Students |
Study Plan |
Curricular Years |
Credits UCN |
Credits ECTS |
Contact hours |
Total Time |
MIB |
31 |
Syllabus |
3 |
- |
6 |
56 |
162 |
Teaching language
Suitable for English-speaking students
Objectives
The identified syllabus are the necessary theoretical support for the careful and efficient biomechanical analysis of tissues and organs when subjected to mechanical loads, allowing the student to have a thorough understanding of mechanics approaches. The concepts and methodologies presented are the basis to analyze some effects of mechanical character on living organisms including a perception based on purely biological systems as well as an evaluation of the results of the implementation of certain devices (implants, orthotics, etc.).
Learning outcomes and competences
The curricular unit Human Body Biomechanics aims to provide students with knowledge in the area of mechanics to be applied in living systems with special emphasis on the mechanics of materials and mechanics of rigid bodies.
To give and develop an interest in Human Body Biomechanics, trying to study and investigate the action, in mechanical terms, of different organs and biological tissues presented in nature.
It is expected that at the end of the semester, the students have acquired knowledge to use tools in order to build mathematical models representing mechanical modeling of systems associated with different living organisms and also to study the human locomotion, the equilibrium and how living tissues deal with load.
Working method
Presencial
Program
Introduction to Biomechanics (concept of center of mass, inertia tensor, forces and moments).
Introduction to the Theory of Elasticity: characterization of the state of stress and strain, stress-strain relations.
Biomechanics of joints: anatomic considerations; kinematics.
Applied Biomechanics: muscle models, static equilibrium and motion analysis.
Tissue biomechanics and the musculoskeletal system: concepts and terminology; bone tissue; articular cartilage, tendons, ligaments and muscles.
Brief approaches to numerical and experimental biomechanics. Study of the human equilibrium and locomotion.
Mandatory literature
Petres; Biomechanics: Fundamentals and Applications
Ronald L. Huston;
Principles of biomechanics. ISBN: 978-0-8493-3494-8
Duane Knudson;
Fundamentals of biomechanics. ISBN: 978-0-387-49311-4
António Completo, Fernando Fonseca;
" Fundamentos de Biomecânica" , PUBLINDUSTRIA, 2011. ISBN: 9789728953706
Cees Oomens, Marcel Brekelmans, Frank Baaijens;
Biomechanics. Concepts and Computation, Cambridge University Press, 2009
Y. C. Fung;
Biomechanics. ISBN: 0-387-97124-6
Peter Merton McGinnis;
Biomechanics of Sport and Exercise, Human Kinetics, 2005. ISBN: 0736051015
Complementary Bibliography
Roger Bartlett;
Introduction to sports biomechanics. ISBN: 978-0-415-33994-0
Teaching methods and learning activities
The curricular unit is divided into three hours weekly theoretical-practical classes and one weekly hour of theoretical class.
In the theoretical class proceeds to the exposure of matter while the theoretical-practical classes are used to perform simple exercises involving the exposed concepts.
keywords
Health sciences > Medical sciences > Medicine > Human anatomy
Physical sciences > Physics > Biophysics > Biomechanics
Technological sciences > Engineering > Biomedical enginnering
Evaluation Type
Evaluation with final exam
Assessment Components
Designation |
Weight (%) |
Exame |
100,00 |
Total: |
100,00 |
Eligibility for exams
Terms of frequency: According to FEUP regulations
Calculation formula of final grade
Final grade= Exam grade+ (2 -Exam grade/10)*Report grade
Observations
Due to the pandemic process, the participation in PL classes has changed its weight to 25% (5 Pts.) in the final mark.
For this purpose, a group work will be evaluated.