Class Biophysics

Biophysics promotes the integration of knowledge from mathematics, physics and biology, and constitutes the mathematical basis for the comprehension of the phenomena studied in cell biology, anatomy and physiology.

Not applicable

Electrical properties of the tissues The ionic bases of the resting membrane potential Graded potentials and action potentials Axonal conduction Biophysics of the sensory systems Physiology of vision Physiology of hearing Elasticity and strength of materials Analogy between the deformation properties of the objects and the spring Resistance of Materials Biomechanics Balance and stability Models of levers and calculation of the forces involved in the joints Hydraulics and Hemodynamics Mechanics of the cardiac pump Hemodynamics: physical and flow properties of blood Methodologies of blood pressure measurement Mechanics of ventilation Mechanics of ventilation: forces acting on the lung Methodologies of measurement of the volumes and capacities of the respiratory system Bioenergetics Heat exchange mechanisms Metabolism: energetic requirements Radiation and radioactivity Radioactivity Ionizing radiation Applications of radiations in biology

The innovative methodologies to support the teaching-learning process used are essentially:  Project Based Learning; Flipped Classroom; Design Thinking.

Davidovits, P. (2012). Physics in Biology and Medicine. Academic Press. Garcia, E. (2015). Biofísica. Segunda edição. Sarvier. Dillon, P. F. (2012). Biophysics: a physiological approach. Cambridge University Press.