Lecture 1 - Introduction to Exercise and Sports Biomechanics
Lecture 2 - Basics of Biomechanics Research
Lecture 3 - Fundamental Directions
Lecture 4 - Fundamental Movements Planes and Axes
Lecture 5 - Skeletal System Oestokinematics and Arthrokinematics
Lecture 6 - Joint Movements
Lecture 7 - Muscular System
Lecture 8 - Muscle Origin, Insertion and Action
Lecture 9 - Muscle Origin, Insertion and Action
Lecture 10 - Muscle Origin, Insertion and Action
Lecture 11 - Introduction to Kinematics and Kinetics Types of Analysis
Lecture 12 - Qualitative analysis Software
Lecture 13 - Dartfish
Lecture 14 - Dartfish (Continued...)
Lecture 15 - Dartfish (Continued...)
Lecture 16 - My Dartfish Express
Lecture 17 - Measurement issues and Data Collection
Lecture 18 - Kinovea
Lecture 19 - Kinovea (Continued...)
Lecture 20 - OpenCap
Lecture 21 - Introduction to Linear and Angular Kinematics
Lecture 22 - Linear Kinematics
Lecture 23 - Projectile Motion
Lecture 24 - Angular Kinematics
Lecture 25 - Application in Sports
Lecture 26 - Introduction to Kinetics in Exercise and Sports Science
Lecture 27 - Forces in motion
Lecture 28 - Dynamics of motion
Lecture 29 - Fundamentals of Mechanics
Lecture 30 - Principles of Rotational Mechanics
Lecture 31 - Introduction to Lever System
Lecture 32 - Fluid Mechanics
Lecture 33 - Timing Gates
Lecture 34 - Timing Gates
Lecture 35 - Camera Settings
Lecture 36 - Accelerometers
Lecture 37 - Introduction to Optical Imaging Systems
Lecture 38 - Hardware Setup Marker and Camera Placement
Lecture 39 - Experiment With Optical Motion Capture System
Lecture 40 - MOKKA - An Open-Source Software for 3D Analysis
Lecture 41 - Introduction to the Center of Gravity
Lecture 42 - Importance of CoG Control Training
Lecture 43 - Measurement of CoG
Lecture 44 - Demonstration of CoG Measurement
Lecture 45 - Goniometry
Lecture 46 - Introduction to force plate
Lecture 47 - Measurements in force plates
Lecture 48 - Practical application of force plates
Lecture 49 - Practical application of force plates (Continued...)
Lecture 50 - Interpretation of Force Data
Lecture 51 - Introduction to force transducers and Isokinetic
Lecture 52 - Biomechanical parameters in Isokinetic testing
Lecture 53 - Isokinetic demonstration
Lecture 54 - Pressure Plate System
Lecture 55 - Digital Resistance Sprint Device
Lecture 56 - Introduction to EMG
Lecture 57 - Practical Application of EMG in Sports
Lecture 58 - Expert Discussion with Dr. Saju Joseph
Lecture 59 - Expert Discussion with Dr. Saju Joseph (Continued...)
Lecture 60 - Expert Discussion with Dr. R.Natarajan
