English
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Sadee Amira Irby
Department of Science, Kean University
Kinesiology ONH01
Pamela Goldsmith
October 30th, 2021
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In basketball, dribbling helps get rid of opponents and facilitate the player's movement on
the court. There are body movements involved in the dribbling process that include movement of
the elbow, knee, shoulder, wrist, ankle, spine, and hip. Different muscles and different joints
coordinate the movements. Here is a look at the body organs' movements, the planes in which the
movement occurs, and the axis of rotation that occurs in each joint.
When dribbling, the hips are hyperextended to move the thigh back. The left knee is bent
more than the right knee proving to be more bent than the right one. The wrist is flexible and
moves around as the ball is being drilled. As the right wrist is in motion, the left wrist is left
stationary. The spine undergoes a flexion movement as the player bends forward. The right elbow
flexes to allow the upper arm to move up slightly and the hand to receive the ball. The left elbow is
also stationary, as it does not perform any function.
The planes and axes are used to determine the movement of joints. Planes include the
sagittal plane, frontal plane, and transversal plane (Langer, Kouchi, & Ballester, 2021). In
basketball, there are muscle movements while dribbling. They include the movement of the
shoulders, elbow, wrist, spine, among other movements. The shoulder and the hip both have the
ball and socket joint that enables them to rotate. They, therefore, move in the transverse plane.
The knee bends through the sagittal plane that controls the up and down movement of
flexion and extension. The ankle also moves in the sagittal plane, as it goes through flexion and
extension movement, which in this case is known as dorsiflexion and plantarflexion. The spine
also moves at the sagittal plane as it also goes through flexion movement, and the movement is
referred to as kyphosis (Floyd & Thompson, 2018). The elbow also moves in the sagittal plane as it
goes through flexion movement.
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The plane and axes are interrelated in that the movement in a plane directly affects the
movement in an axis. For example, the movement in the sagittal plane makes an individual move
in the transverse axis ( Soubeyrand et al.,2017). Therefore, all the movements above in the sagittal
plane move in the transverse axis. Such movements include the movement of the ankle, spine,
knee, and elbow. The movement in the transverse plane occurs in the longitudinal axis. Therefore,
the movement in the hips and shoulders occur in the longitudinal axis. It involves the rotation of
the muscles.
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References
Langer, P., Kouchi, M., & Ballester, A. (2021). White Paper-IEEE SA 3D Body
Processing Industry Connections--Functional Anatomy, Terms, and
Common Foot Conditions.
Soubeyrand, M., Assabah, B., Bégin, M., Laemmel, E., Dos Santos, A., & Crézé, M.
(2017). Pronation and supination of the hand: Anatomy and biomechanics.
Hand Surgery and Rehabilitation, 36(1), 2-11.
Floyd, R.T., & Thompson, C.W. (2018). Manual of structural kinesiology (20th ed).
New York, NY: McGraw Hill. ISBN10: 125987043X ISBN13:
9781259870439
Skeletal Module. (n.d.). Retrieved from
http://anatomy.mheducation.com/html/apr.html?animal=human&
login=1562016601139