Menu
Menu
Demonstrative and interactive methodology in theoretical-practical typology classes. And more active methodologies in the Laboratory Practice classes for the development of experimental skills. Problem-based learning methodology and education for understanding will be applied through educational planning based on meaningful learning scenarios (simulation) in laboratory practice classes. Use of the e-learning platform for guided study, discussion and reflection.
For the evaluation, peer feedback will be used. Continuous assessment = Frequency (60%) + Continuous Assessment Laboratory practices/simulation (40%). Students can choose for the final exam.
Acquisition of knowledge and comprehension capacity in the area of instrumentation for human movement analysis; Knowing how to apply the knowledge and comprehension skills acquired in the UC Study of Human Movement I in the kinematic, kinetic and electromyographic analysis of the movement;
Develop the ability to collect, process, select, analyze, interpret and critically integrate relevant experimental data on human movement, which is the foundation of problem solving and the issuing of judgments;
Develop skills to communicate information, ideas, problems and solutions arising from the instrumental analysis and evaluation of the human movement;
Acquisition of learning skills in the area of instrumentation for analysis and evaluation of human movement.
Nao
Instrumentation for human movement analysis;
Kinematic analysis of human movement;
Electromyographic analysis of human movement;
Analysis of results of instrumental evaluation of movement applied to case studies.
Frequency: 60.0%
Pratical Assessment: 40.0%
Pratical Exam: 40.0%
Theorical Exam: 60.0%
Angin, S., &Amp; Simsek, I. (2020). Comparative Kinesiology Of The Human Body: Normal And Pathological Conditions. Elsevier.
Everett, T., &Amp; Kell, C. (2010). Human Movement: An Introductory Text (6Th Ed.). Churchill Livingstone.
Griffiths, I. (2006). Principles Of Biomechanics &Amp; Motion Analysis. Philadelphia, Usa: Lippicott Williams &Amp; Wilkins. Hamill, J. &Amp;
Knutzen, K. (20018). Bases Biomecânicas Do Movimento Humano. São Paulo: Manole.
Kapandji, A. (2009). Fisiologia Articular. (Vol. 1, 2 E 3). 6ª Edição. São Paulo, Brasil: Panamericana. Mcginnis, P.m. (2020). Biomechanics Of Sport And Exercise. Champaign, Il. Human Kinetics.
Neumann, D. A. (2016). Kinesiology Of The Musculoskeletal System: Foundations Of The Rehabilitation. Elsevier
Joel Emidio Duarte Marouvo