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Role of ATP
IB Diploma Programme: Sports, exercise and health science - Theme B: Biomechanics
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Content
Notes
Generating movement
Human skeleton
Structure and functions of the skeleton
Positional terminology
Movements
Planes
Axes
Movement patterns
Connective tissues and joints
Connective tissues
Types of joints
Muscular function
Motor units
Role of ATP
Muscle fibre types
Hypertrophy and atrophy
Types of muscular contraction
Antagonistic pairs
Levers in movement
Levers inside the body
Levers outside the body
Forces, motion and movement
Newton's laws of motion
Introduction to Newton's laws of motion
Stability
Net Forces: Vertical
Net Forces: Horizontal
Linear motion
Impulse
Angular motion and angular momentum
Fluid mechanics
Factors affecting the motion of projectiles
Movement analysis
Phases of movement
Injury
Causes of injury
Intrinsic factors
Extrinsic factors
Acute trauma
Interventions related to injury
Methods of reducing the risk of injury
Injury treatment
Concussion treatment
Higher Level (HL) only content
Anthropometry and body segments (HL)
Anthropometry and anthropometric databases (HL)
Sliding filament theory (HL)
Sliding filament theory 1 (HL)
Sliding filament theory 2 (HL)
Collisions (HL)
Coefficient of restitution (HL)
Friction (HL)
Work done (HL)
Work, power and energy (HL)
Fluid mechanics (HL)
Effect of environmental conditions (HL)
Buoyancy, lift and drag (HL)
Bernoulli principle (HL)
Magnus effect (HL)
Causes of injury (HL)
Chronic injuries (HL)
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