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Kinesiology

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Kinesiology. Biomechanics and its applications. What is Biomechanics? Subdiscipline of Kinesiology. Skeletal, articular and neuromuscular systems. Physics ... – PowerPoint PPT presentation

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Title: Kinesiology


1
Kinesiology
  • Biomechanics and its applications

2
What is Biomechanics?
  • Subdiscipline of Kinesiology
  • Skeletal, articular and neuromuscular systems
  • Physics
  • Mechanical perspective

3
Mechanical Perspective
  • Static vs Dynamic Assessment
  • Static Assessment
  • constant motion
  • no motion
  • Examples?

4
Mechanical Perspective
  • Dynamic Assessment
  • Branches
  • Kinematics
  • Kinetics
  • Anthropometric Measurements

5
Why Study Kinesiology?
  • Athletic Training
  • mechanisms of injury
  • proper joint mechanics
  • biomechanics of posture
  • pathological biomechanics

6
Why study Kinesiology?
  • Kinesiotherapy
  • pathological biomechanics
  • posture/balance biomechanics

7
Why study Kinesiology?
  • Physical Therapy
  • same as others

8
Other Areas
  • Gait Analysis
  • NASA
  • Elderly
  • Cerebral Palsy
  • Prosthetics
  • Ergonomics
  • Sport Equipment
  • Sport Biomechanists

9
Biomechanist vs Applied Biomechanist
  • Biomechanist
  • Applied Biomechanist

10
Units of Measure
  • US vs Metric
  • Scalar
  • possess size or magnitude but no direction
  • Vector
  • possess both magnitude and direction

11
Ways to solve Kinesiological problems
  • Qualitative
  • no numbers
  • detailed or general
  • most often used by?
  • Quantitative
  • numbers
  • instrumentation
  • subjectivity
  • Formal Criteria for Quantitative Analysis

12
Efficiency and Effectiveness of Movement
  • Efficiency of Movement
  • work done with minimum energy expenditure
  • Effective Movement
  • determine most appropriate sequencing of segments
    to accomplish given movement
  • Effective movement is optimally efficient,
    however a maximally efficient movement is not
    necessarily biomechanically effective

13
Basic Kinematic Concepts
14
Directional Terms
  • Superior/Inferior
  • Proximal/Distal
  • Anterior/Posterior
  • Medial/Lateral
  • Superficial/Deep

15
Movement Terms
  • Flexion/Extension
  • Abduction/Adduction
  • Horizontal Abduction/Hor. Adduction
  • Internal Rotation/External Rotation
  • Radial Deviation/Ulnar Deviation
  • Supination/Pronation
  • Inversion/Eversion

16
Anatomical Planes Axes
  • Plane of Motion
  • 2 dimensional flat surface
  • Axis
  • point about which movement occurs
  • perpendicular to the plane of movement
  • Whole Body Planes and Axes
  • Segmental Planes and Axes

17
Anatomical Planes
18
Planes of movement
  • Sagittal
  • left/right halves
  • Perpendicular Axis - Frontal or Mediolateral

19
Planes Axes
  • Frontal Plane
  • Anterior/posterior halves
  • Axis - Anteroposterior or Sagittal

20
Planes Axes
  • Transverse Plane
  • Upper/lower halves
  • Axis - Longitudinal

21
Other Planes and axes
  • Diagonal or Oblique
  • plane of movement
  • perpendicular to the plane
  • how to find

22
Types of Motion
  • What is motion?
  • Cause of Motion
  • force
  • magnitude of force and magnitude of resistance
  • Types of Motion
  • Translatory
  • Rotary

23
Translatory (Linear) Motion
  • Same direction _at_ same speed
  • Rectilinear
  • Curvilinear
  • Units

24
Rotary (Angular) Motion
  • Rotation about a fixed point
  • joint - fixed points
  • angular displacement
  • units
  • radius of rotation

25
Other Motion Patterns
  • Reciprocating
  • Oscillation
  • General Motion

26
Factors Modifying Motion
  • External
  • friction
  • air resistance
  • water resistance
  • Internal
  • friction within joints
  • tension in antagonist muscles, ligaments and
    fascia
  • anomalies of bone and joint structure
  • fat and muscle
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