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Biomechanics of Ice Hockey Slap Shot

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Raven Ladon. Essy Sosa. Sean Griffin. StevieG. Matt Barrett. Introduction ... Most commonly used by a defenseman, especially during a power play. ... – PowerPoint PPT presentation

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Title: Biomechanics of Ice Hockey Slap Shot


1
Biomechanics of Ice Hockey Slap Shot
  • Chantelle Frechette
  • Kathy Palmer
  • Megan Suyematsu
  • Raven Ladon
  • Essy Sosa
  • Sean Griffin
  • StevieG.
  • Matt Barrett

2
Introduction
  • The slap shot is one of several scoring skills
    used in hockey.
  • Most commonly used by a defenseman, especially
    during a power play. In certain circumstances
    forwards do use the shot, and it can be very
    beneficial.

3
Methods BU Ice Hockey Training Center
  • Goal
  • Hockey stick
  • Puck
  • Athlete

4
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5
6 Phases of Slap shot
  • Backswing
  • Downswing
  • Pre-loading
  • Loading
  • Release
  • Follow through

6
Phase 1- Backswing
7
Phase 2-4
8
Phase 5 and 6
9
Muscles Involved
  • Shoulder Adduction
  • Pectoralis Major
  • Latissimus Dorsi
  • Teres Major
  • Shoulder Flexion
  • Anterior Deltoid
  • Shoulder Internal Rotation
  • Pectoralis Major
  • Subscapularis
  • (Emmert, 1984)

10
Muscles Involved
  • Trunk Rotation
  • Internal/External Obliques
  • Hip Flexion
  • Psoas
  • Iliacus
  • Pectineus
  • Elbow Extension
  • Triceps Brachii
  • Forearm Pronation
  • Pronator Quadratus
  • Wrist Flexion
  • Flexor Carpi Radialis Ulnaris
  • (Emmert, 1984)

11
Agonist, Antagonist, Synergist, Stabilizer, and
Neutralizer
  • Neutralizers
  • Deep back muscles
  • Stabilizers
  • muscles of the lower extremities mainly the
    front leg
  • Agonists
  • Right External Oblique and Left Internal Oblique
  • Antagonists
  • Left External Oblique and Right Internal Oblique
  • Synergists
  • Abs assisting (Transverse and Rectus)Peri
    Spinals and Quadratus Lumborum

12
Types of Muscle Contractions
  • Trunk Rotation
  • Eccentric stabilizers
  • - Internal obliques
  • -External obliques
  • -Rectus abdominis
  • -Transverse abdominis
  • The lumbar region produces the major
    flexion/extension pivot point for the trunk.
  • (Neumann, D.A., 2002)

13
Rotation
  • Pelvic on Femoral Rotation
  • Only 5 degrees of horizontal plane rotation
    occurs to each side of the lumbar region.
  • 1.1 degrees of unilateral axial rotation measured
    in the lumbar region. This is limited due the
    apophyseal joints located controlateral to the
    side of the rotation.
  • Backswing
  • Internal Obliques cause ipsilateral rotation of
    the trunk
  • Downswing, Pre-loading, loading, release and
    follow through
  • External Obliques cause contralateral rotation
    of the trunk
  • Axis of Rotation
  • Lumbar Spine
  • (Neumann, D.A., 2002)

14
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15
Major External/Internal Forces
  • Summation of forces
  • More than just muscle action
  • Car wreck analogy

16
Radius of Gyration
  • Radius of Gyration is the average distance
    between the Axis of rotation and the center of
    mass of the body.
  • The greater the radius of rotation of the upper
    body about the longitudinal axis of the trunk,
    the greater the inertia, or resistance to
    rotation, of the trunk and the slower the
    movement.
  • The weight of the stick and upper limbs remains
    constant, therefore, any increase in the radius
    of gyration results in an increase in inertia, or
    the resistance of a body to rotate.
  • (Hall, 1999)

17
Lever Systems
  • It is possible that the more the player takes
    advantage of the first class lever, the greater
    the height of the shot as the lever projects the
    blade of the stick rapidly in the vertical
    direction. Whether the player is executing a high
    or low shot, it appears the stick serves as both
    a 1st and 3rd class lever throughout the
    movement. The head should be rotated towards the
    target and the eyes should be looking for an
    opening on the goaltender throughout this
    movement.

18
Torque Velocity
  • Torque Force x moment arm (rotational force
    applied to the axis of rotation, through a moment
    arm).
  • The rotation produces torque on the puck. Hip
    rotation causes the torque force to change the
    angular velocity of the stick.
  • -the angle in which the force is applied is
    directly related to the distance.
  • During the follow-through phase, the further out
    on the blade, the more torque, or twisting force,
    there is.
  • -The faster your stick is going at the bottom
    of your swing, the greater the amount of kinetic
    energy transferred from stick to puck.
  • (Falconer, 1994)

19
Newtons First Law
  • A force is needed to change the direction of the
    object, and time force must act in the direction
    of the change.
  • - Force is generated by the rotation of the
    trunk to move the stick in the direction the puck
    wants to go.

20
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21
Trajectory and Speed of Puck
  • Determined by
  • Impulse on puck
  • Acceleration of puck
  • Contact time with the puck
  • Forces exerted by player
  • Stiffness of stick
  • (Villasenor, 2006)

22
Deflection of Stick Shaft
23
Power and Work
  • The slap shot is mostly technique and power comes
    from the weight transfer from the players back
    leg, right through to the stick in his hands.

24
Things to Consider When Designing a Conditioning
Program
  • Flexibility and eccentric strength in the hips,
    core and shoulder complex are needed to properly
    rotate through the hips and alleviate stress on
    the lumbar spine to transfer forces through the
    core and produce optimal angular velocity at the
    shoulder.
  • Pivoting or rotating on a fixed foot requires
    optimal internal and external rotation at the
    hips as well as stabilization and strength in the
    transverse plane.
  • Increased forces placed on the lower extremities
    during stopping, starting and pivoting require
    high levels of stabilization and eccentric
    strength in the ankle, knee, and hip
  • Focus on increasing aerobic endurance, anaerobic
    power and endurance, muscle strength and skating
    speed.
  • (In Pro-Form)

25
Conditioning ProgramDay 1-2
26
Conditioning Program Day 3-4
27
Questions
  • 1. Of the 6 phases of the slap shot, which of one
    of the four dont belong?
  • a. follow thru
  • b. preload
  • c. impact
  • d. load
  • 2. The main stabilizers in the slap shot action
    take place in the upper extremities?
  • True or False
  • 3. What is the major action of the rotation of a
    slap shot?
  • a. pelvic on femoral
  • b. femoral on pelvic
  • c. in the knees
  • d. in the wrist

28
Questions
  • 4. which factors determine the trajectory or
    speed of the puck when struck?
  • a. impulse on puck
  • b. contact time
  • c. stiffness of stick
  • d. all the above
  • 5. what lever system (s) are used during the slap
    shot action
  • a. 1st class lever system
  • b. 2nd class lever system
  • c. 1st and 3rd class lever systems
  • d. all the above

29
References
  • Villanseñor, A., Turcotte, R.A., Pearsall, D.J.
    (2006). Recoil effect of the ice hockey stick
    during a slap shot
  • Pearsall, D.J., Montgomery, N., Turcotte,
    R.A.(1999). The influence of stick stiffness on
    the performance of ice hockey slap shots
  • Emmert, W. (1984). The slap shot- strength and
    conditioning program for hockey at Boston
    College. National College of Sports Medicine
    Journal, 64-73.
  • Montgomery, DL.(1998) Physiology of Hockey.
    Sports Medicine, February 5(2) 99-126
  • Falconer, T.(1994) How Hockey Works. Equinox.
  • In Pro-Form
  • Mike Boyle
  • Ed Perkins
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