Paper 1 - OCR PE

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Created by
M_hir[8]

Cards (97)

  • Hinge joints
    Knee, elbow, ankle
  • Ball and socket joints
    Hip, shoulder
  • Flexion at ball and socket joint
    Arms and legs move in front of body
  • Flexion at hinge joint
    Elbow/knee bends, insertion moves towards origin
  • Extension at ball and socket joint
    Arms and legs move behind body
  • Extension at hinge joint
    Elbow/knee straightens, limb is extended
  • Abduction
    Movement away from midline of body
  • No abduction at hinge joints
  • Adduction
    Movement back towards midline of body
  • Circumduction
    Arm rotates through extension, abduction, flexion, adduction
  • Rotation
    Head can rotate left/right, but not at ball and socket joints
  • Adduction
    1. Shoulder will rotate to go through all the movements
    2. Produces a circling action
  • Combining different movements produces a circling action of the shoulder
  • Rotation is important at a joint, not so much around an axis
  • Rotation of the head
    Looking to the side
  • Rotation at a ball and socket joint is around the joint's own axis
  • Hinge joint
    Flexion and extension are possible movements
  • Ball and socket joint
    Flexion, extension, adduction, abduction, and rotation are possible movements
  • Ball and socket joints in the hip have more stability compared to the shoulder
  • Agonist
    Muscle that produces movement
  • Antagonist
    Muscle that relaxes to allow the agonist to work
  • Fixator
    Muscle that helps stabilize the joint to prevent unnecessary movement
  • Knee flexion
    1. Agonist is the hamstrings
    2. Antagonist is the quadriceps
  • Knee extension
    1. Agonist is the quadriceps
    2. Antagonist is the hamstrings
  • Elbow flexion
    1. Agonist is the biceps
    2. Antagonist is the triceps
  • Elbow extension
    1. Agonist is the triceps
    2. Antagonist is the biceps
  • A lever system requires 4 components: lever arm, fulcrum, effort, and load
  • First class lever
    Fulcrum is between the load and the effort
  • Second class lever
    Load is between the fulcrum and the effort
  • Third class lever

    Effort is between the fulcrum and the load
  • The biceps tendon inserts onto the radius to cause elbow flexion in a third class lever system
  • Full Crum
    The elbow joint
  • Load
    The dumbbell
  • Effort
    The bicep tendon pulling down on the radius
  • Examples of third class levers
    • Goalkeeper catching a low ball
    • Bicep curl
    • Prepping an uppercut
  • Mechanical advantage
    Overcoming a large load with little effort
  • Effort arm
    The distance from the effort to the fulcrum
  • Load arm
    The distance from the load to the fulcrum
  • When the effort arm is greater than the load arm, we can overcome large loads with little effort, but there is a tradeoff of low speed and short range of motion
  • The majority of joints in the human body have mechanical disadvantage, which allows for flexibility, suppleness, speed and dexterity