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Anatomical Movements00:51

Anatomical Movements

17.7K
Anatomical movements refer to the various actions or motions that can be performed by the body's joints and muscles. These movements are described using specific terms to provide a standardized way of discussing and understanding the range of motion at different joints.
Here are some common anatomical movements:
Flexion and extension motions are in the sagittal (anterior–posterior) plane of motion. These movements take place at the shoulder, hip, elbow, knee, wrist,...
17.7K
Muscles of the Forearm that Move the Hand and Fingers01:16

Muscles of the Forearm that Move the Hand and Fingers

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The muscles of the forearm that move the wrist, hand, and digits are numerous and diverse. They can be classified into two groups based on their location and function — the anterior and posterior compartment muscles.
Anterior Compartment
The anterior compartment muscles originate from the humerus. They primarily function as flexors and are also known as flexor muscles. They typically insert on the carpals, metacarpals, and phalanges. The superficial layer includes the flexor carpi...
3.0K
Muscles that Move the Arm01:31

Muscles that Move the Arm

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Nine muscles are involved in arm movements. Two of these, the pectoralis major and latissimus dorsi, originate from the axial skeleton and are called axial muscles. The other seven originate from the scapula and are called the scapular muscles.
The pectoralis major has two origins. Its clavicular head originates on the medial half of the clavicle. In contrast, the sternocostal head originates on the costal cartilages of ribs 1-6, the sternum, and the aponeurosis of the external oblique of the...
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Planar Rigid-Body Motion01:22

Planar Rigid-Body Motion

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Understanding the movement of a rigid body in planar motion involves recognizing that every particle within this body is traversing a path that maintains a consistent distance from a specific plane. This concept is fundamental in the study of physics and mechanical engineering, and it allows us to comprehend better how objects move in space.
Planar motion is typically divided into three distinct categories. The first is rectilinear translation, demonstrated by a subway train that moves along...
1.4K
Muscle Coordination and Action01:24

Muscle Coordination and Action

3.6K
Muscle coordination is a complex and finely tuned process essential for smooth and purposeful movements like flexion, extension, adduction, abduction, and rotation. The human body orchestrates the actions of various muscles working in concert, each with a specific role. Four functional types describe how muscles work together: agonist, antagonist, synergist, and fixator.
Agonists
Agonist muscles, often called prime movers, are the primary muscles responsible for producing a specific movement....
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Related Experiment Video

Updated: Apr 1, 2026

A Structured Rehabilitation Protocol for Improved Multifunctional Prosthetic Control: A Case Study
06:58

A Structured Rehabilitation Protocol for Improved Multifunctional Prosthetic Control: A Case Study

Published on: November 6, 2015

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Movement plans for posture selection do not transfer across hands.

Christoph Schütz1, Thomas Schack2

  • 1Faculty of Psychology and Sports Science, Bielefeld University Bielefeld, Germany.

Frontiers in Psychology
|October 7, 2015
PubMed
Summary
This summary is machine-generated.

Motor hysteresis, a phenomenon where past movements influence current choices, was investigated for hand postures. Findings show this effect transfers across trials but not across different hands during sequential tasks.

Keywords:
motor controlmotor hysteresismotor planningposture selectiontransfer

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Area of Science:

  • Cognitive Neuroscience
  • Motor Control
  • Human Movement Science

Background:

  • Motor hysteresis influences grasp posture selection in sequential tasks.
  • This effect stems from reusing prior movement plans, reducing cognitive load.
  • Previous research indicates movement plan transfer across trials and hands for trajectories.

Purpose of the Study:

  • To investigate if motor hysteresis in hand posture planning transfers across hands.
  • To examine the influence of movement history on hand posture selection in a sequential task involving hand switches.

Main Methods:

  • A sequential, continuous posture selection task was designed.
  • Participants opened drawers with cylindrical knobs in ascending/descending sequences, requiring hand switches.
  • Hand pro/supination was measured before and after each hand switch.

Main Results:

  • Motor hysteresis effects were observed directly before the hand switch.
  • These hysteresis effects were absent directly after the hand switch.
  • This suggests a lack of transfer of hand posture movement plans across hands.

Conclusions:

  • Hand posture planning exhibits motor hysteresis across successive trials.
  • However, this motor hysteresis does not transfer across hands in the described task.
  • Movement plans for hand postures are distinct from those for hand trajectories regarding cross-hand transfer.