Ans:- 1. Abduction occurs in the frontal plane about the sagittal axis.
2. Adduction occurs in the frontal plane about the sagittal axis.
3. Flexion occurs in the sagittal plane about the frontal axis.
4. Extension occurs in the sagittal plane about the frontal axis.
5. Horizontal adduction occurs in the transverse plane about the vertical axis.
6. Horizontal abduction occurs in the transverse plane about the vertical axis.
Frontal plane:- A vertical line that goes from side to side and divides the body into front and back.
Sagittal plane:- A vertical line that goes from front to back and divides the body into left and right.
Transverse plane:- A horizontal line that goes from side to side and divides the body into top and bottom.
Frontal axis:- A line or point that runs through a joint from side to side.
Sagittal axis:- A line or point that runs through a joint from front to back.
Transverse axis:-. A line or point that runs through a joint from top to bottom.
1. Abductionurs in the 2. Adduction occurs in the 3. Flexion occurs in the 4. Extension...
Term Flexion Definition Extension Abduction Adduction Internal rotation
Define and give examples of five types of angular movements: flexion and extension, abduction and adduction, and circumduction. Include the plane of movement for each action.
match the joint
-Plantar Flexion -Antagonistic muscles -Flexion -Extension -Pronation -Torticollis -Supination -Bone -Hyperextension -Abduction -Adduction - Internal Rotation -Eversion -Inversion -External Rotation -Dersiflexion -Bursitis - Muscle -Joint -Dislocation -Subluxation 1. The most common signs and symptoms of disease are pain, swelling, decreased mobility, and deformity. 2. Weakness is the most common sign or symptom of disorders. cause movement at a joint. is the complete separation of a bone from its normal position in a joint. is the inflammation of...
Matching 1. Extension Circumduction Plantar flexion 4. Dorsiflexion 5. Eversion 6. Adduction 7. Hyperextension opment term listed below to its proper definition A Moving the arm so the palm is up B. Moving a body part outward C. Straightening of a body part D. Motion toward the midline of the body E. Moving a body part inward F. Turning a body part around its axis G. A position of maximum extension, or extending a body part beyond its normal limits...
1. In the context of the pelvic girdle motions, which of the following statements is true of the right lateral pelvic rotation? A. It is characterized by a left lateral tilt. B. It is accomplished by right lumbar and lateral flexion left hip abduction in the frontal plane C. The right pelvis moves inferiorly in relation to the left pelvis in the frontal plane D. Either the left pelvis rotates downward or the right pelvis rotates upward. 2. In the...
Elbow Flexion: biceps brachii, brachialis, and brachioradialis muscles Hip Flexion: iliopsoas, sartorius muscles Extension: biceps femoris, semitendinosus, semimembranosus, and gluteus maxim Abduction: tensor fasciae latae, sartorius, and gluteus medius muscles Adduction: gracilis and adductor muscles I Knee Flexion: biceps femoris, semitendinosus, semimembranosus, and gastrocnemius muscles .Extension: rectus femoris, vastus medialis, vastus intermedius, and vastus lateralis Ankle Dorsiflexion: tibialis anterior muscle Plantarflexion: gastrocnemius and soleus muscles Inversion: tibialis anterior and tibialis posterior muscles Eversion: fibularis brevis and fibularis longus muscles ke...
muscle is located and performs of the hip. 8. The iliopsoas is A. medially; adduction B. laterally; abduction C. anteriorly; flexion D. posteriorly; extension 9. The origin of the rectus femoris muscle is the anterior inferior iliac spine of the iliunm the groove above the A. ischiumm B. acetabulum C. fascia D. linea aspera of the hip. 10. The pectineus muscle is located A. medially; intemal rotation B. laterally; abduction C. anteriorly; flexion D. posteriorly; extension 11. Which of the...
Have to match origin/insertion along with the action a muscle in that position would cause. they can be used multiple times. 1.humeral epicondyles to radial tuberosity_____ 2.posterior sacrum to lesser trochanter____ 3.ischial tuberosity to linea aspera______ 4.linea aspera to medial malleolus____ 5. styloid process of radius to metacarpal #1 (theLateral sideOfboth)____ OPTIONS: A. flexion of knee B. extension of knee C. flexion of hip D. extension of hip E. plantar flexion of ankle F. extension of elbow G. flexion of...
QUESTION 1
Dip Exercise
List the movements that occur in each joint as the subject moves
the body up and down in performing dips.
Choose your movement from the following list (movements may be
used multiple times):
Flexion
Extension
Abduction
Adduction
Internal rotation
External rotation
Horizontal abduction
Horizontal adduction
Diagonal abduction
Diagonal adduction
Elevation
Depression
Upward rotation
Downward rotation
For each joint movement, list the agonist muscle primarily
responsible, and indicate whether it is contracting concentrically
or eccentrically with a...
Exercise 10.4: Classification of Synovial Joints 9. Match the description of the synovial joint listed in column with the corresponding classification listed in column B. Colume A Calum 1. biaxial oval convex and concave a bal-and-socket 2. multiaxial head it into a socket to condylar 3. multiaxiatresembles the shape of a saddle c. hinge 4 uniaxial convex and concave surfaces d. pivot 5. uniaxial: round surface in ring e plane 6. uniaxial, two flat surfaces 1 saddle 10. Which of...