• Definition, practice, history, present and future of mechanics and biomechanics (since ancient to present day, from bionics to genetic engineering and biocompatibility).
• Statics of a solid body (force, moment, centre of mass, equilibrium).
• Idea of materials in mechanics and biomechanics (basic types, behaviour description, measurements, suitability, degradation, biocompatibility, tissue remodelation, healing of tissues).
• Statics of a deformable body (tensile/pressure, displacement, definition of deformations, stress, statically determinate and indeterminate problems).
• Statics of a deformable body (plane bending of beams, displacement, stress, statically determinate and indeterminate problems).
• Statics of a deformable body (torsion of beams, twisting, stress, statically determinate and indeterminate problems).
• Statics of a deformable body (strength hypothesis, design inequation, engineering design of parts).
• Dynamics and kinematics (trajectory, velocity, acceleration, vibration, impact of bodies).
• Anatomy of musculoskeletal system and motoric of plants, animals and humans and laboratory autopsy of fish.
• Biomechanics of motion, gait, loading in sports and injury of humans and animals (analysis of a process, boundary and initial conditions).
• Numerical modelling in biomechanics and mechanics.
• Experimental measurements and diagnostics in mechanics and biomechanics (material tests, displacement measurements, methods of medical and engineering diagnostics, RTG, CT, MRI, statistics, experiments).
• Statics of a solid body (force, moment, centre of mass, equilibrium).
• Idea of materials in mechanics and biomechanics (basic types, behaviour description, measurements, suitability, degradation, biocompatibility, tissue remodelation, healing of tissues).
• Statics of a deformable body (tensile/pressure, displacement, definition of deformations, stress, statically determinate and indeterminate problems).
• Statics of a deformable body (plane bending of beams, displacement, stress, statically determinate and indeterminate problems).
• Statics of a deformable body (torsion of beams, twisting, stress, statically determinate and indeterminate problems).
• Statics of a deformable body (strength hypothesis, design inequation, engineering design of parts).
• Dynamics and kinematics (trajectory, velocity, acceleration, vibration, impact of bodies).
• Anatomy of musculoskeletal system and motoric of plants, animals and humans and laboratory autopsy of fish.
• Biomechanics of motion, gait, loading in sports and injury of humans and animals (analysis of a process, boundary and initial conditions).
• Numerical modelling in biomechanics and mechanics.
• Experimental measurements and diagnostics in mechanics and biomechanics (material tests, displacement measurements, methods of medical and engineering diagnostics, RTG, CT, MRI, statistics, experiments).