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Quiz Maker › Create Quiz › Online Quizzes › Health › Medicine › NASM

NASM Human Movement Science: Muscules And Actions Performed

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| By Bradjamc

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Quizzes Created: 1 | Total Attempts: 260

Questions: 42 | Attempts: 260 | Updated: Oct 15, 2024

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NASM Human Movement Science: Muscules And Actions Performed - Quiz

Muscules Actions performed

Questions and Answers

1.

Name the muscle shown above
- A.
  
  Peroneus Longus
- B.
  
  Posterior Tibialis
- C.
  
  Gastrocnemius
- D.
  
  Anterior Tibialis
- E.
  
  (None of the above)
Correct Answer
D. Anterior Tibialis
2.

What is the concentric function of the muscle shown above?
- A.
  
  Stabilize the arch of the foot
- B.
  
  Eversion of the foot
- C.
  
  Accelerate dorsiflexion
- D.
  
  Inversion of the foot
- E.
  
  Isometrically stabilizes the foot and ankle complex
Correct Answer(s)
C. Accelerate dorsiflexion
D. Inversion of the foot
3.

What is the name of the muscle shown above
- A.
  
  Posterior Tibialis
- B.
  
  Soleus
- C.
  
  Anterior Tibialis
- D.
  
  Peronoeus Longus
- E.
  
  (None of the Above)
Correct Answer
A. Posterior Tibialis

Explanation
The correct answer is Posterior Tibialis because it is the muscle located on the posterior side of the tibia bone. It originates from the back of the shin bone and inserts into the bones of the foot. This muscle is responsible for inversion and plantar flexion of the foot, as well as supporting the arch of the foot.

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4.

What is the concentic function of the muscle shown above?
- A.
  
  Decelerate dorsiflexion and inversion of the foot
- B.
  
  Accelerate plantarflexion
- C.
  
  Accelerate dorsiflextion
- D.
  
  Inversion of the foot
- E.
  
  Eversion of the foot
Correct Answer(s)
B. Accelerate plantarflexion
D. Inversion of the foot

Explanation
The concentric function of the muscle shown above is to accelerate plantarflexion and inversion of the foot. This means that when the muscle contracts, it helps to point the foot downwards (plantarflexion) and turn the sole of the foot inward (inversion).

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5.

Integrated functions of the muscle shown are
- A.
  
  Eccentrically decelerate eversion
- B.
  
  Isometrically stabilze the foot and ankle complex
- C.
  
  Eccentrically decelerate plantarflexion
- D.
  
  Isometrically Stabilize the arch of the foot
- E.
  
  (All of the above)
Correct Answer(s)
A. Eccentrically decelerate eversion
C. Eccentrically decelerate plantarflexion
D. Isometrically Stabilize the arch of the foot

Explanation
The muscle shown in the question is responsible for eccentrically decelerating eversion and plantarflexion, as well as isometrically stabilizing the arch of the foot. This means that the muscle helps to control the movement of the foot during these actions, preventing them from occurring too quickly or forcefully. Additionally, the muscle provides stability to the arch of the foot, helping to maintain its shape and support the body's weight during activities. Therefore, all of the given options are correct.

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6.

Integrated functions of the muscle shown are
- A.
  
  Eccentrically decelerates plantarflexion of the foot
- B.
  
  Isometrically stabilize the foot and ankle complex
- C.
  
  Eccentrically decelerates inversion of the foot
- D.
  
  Isometrically stabilse the arch of the foot
- E.
  
  (None of the Above)
Correct Answer
D. Isometrically stabilse the arch of the foot

Explanation
The correct answer is "Isometrically stabilize the arch of the foot." This means that the muscle shown in the question is responsible for maintaining the stability of the arch of the foot without any movement. It does not decelerate plantarflexion or inversion of the foot, and it does not stabilize the foot and ankle complex.

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7.

Integrated functions of the muscle shown above are
- A.
  
  Eccentrically decelerates ankle dorsiflexion
- B.
  
  Eccentrically decelerates inversion of the foot
- C.
  
  Eccentrically decelerates dorsiflexion
- D.
  
  Isometrically stabilizes the foot and ankle complex
- E.
  
  Eccentrically decelerates eversion of the foot
Correct Answer(s)
B. Eccentrically decelerates inversion of the foot
C. Eccentrically decelerates dorsiflexion
E. Eccentrically decelerates eversion of the foot

Explanation
The muscle shown above is involved in eccentrically decelerating three different movements of the foot: inversion, dorsiflexion, and eversion. Eccentric contraction occurs when a muscle lengthens while under tension, acting as a brake to slow down a movement. In this case, the muscle is working to slow down the movements of inversion (turning the foot inward), dorsiflexion (bringing the foot upward), and eversion (turning the foot outward). This muscle also isometrically stabilizes the foot and ankle complex, meaning it contracts to maintain stability and prevent excessive movement in the joint.

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8.

Name the muscle shown above
- A.
  
  Gastrocnemius
- B.
  
  Soleus
- C.
  
  Peroneus Longus
- D.
  
  Posterior Tibialis
- E.
  
  (None of the Above)
Correct Answer
B. Soleus

Explanation
The correct answer is Soleus. The muscle shown in the image is the soleus muscle. It is located in the lower leg and is one of the muscles that make up the calf. The soleus muscle works together with the gastrocnemius muscle to help flex the foot and provide power for movements such as walking, running, and jumping.

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9.

Name the muscle shown above
- A.
  
  Gastrocnemius
- B.
  
  Posterior Tibialis
- C.
  
  Soleus
- D.
  
  Peroneus Longus
- E.
  
  (None of the Above)
Correct Answer
A. Gastrocnemius

Explanation
The correct answer is Gastrocnemius because it is the muscle shown in the image. The Gastrocnemius is a large muscle located in the calf of the leg. It is responsible for plantar flexion of the foot and flexion of the knee joint. It is easily identifiable by its two heads, which give it a distinct appearance. The other options listed are different muscles that are not shown in the image.

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10.

Name the muscle shown above
- A.
  
  Peroneus Longus
- B.
  
  Peroneus Brevis
- C.
  
  Soleus
- D.
  
  Gastrocnemuis
- E.
  
  (Nove of the above)
Correct Answer
A. Peroneus Longus
11.

What are the integrated functions of the muscle shown above
- A.
  
  Decelerates ankle dorsiflextion
- B.
  
  Isometrically stabilizes the foot and ankle complex
- C.
  
  Isometrically stabilezes the arch of the foot
- D.
  
  Decelerates dorsiflexion of the foot
- E.
  
  (All of the above)
Correct Answer(s)
A. Decelerates ankle dorsiflextion
B. Isometrically stabilizes the foot and ankle complex
12.

What are the integrated functions of the muscle shown?
- A.
  
  Decelerate ankle dorsiflexion
- B.
  
  Iso metrically stabilixe the foot and ankle complex
- C.
  
  Concentrically accelerates plantarflexion
- D.
  
  (All of the above)
- E.
  
  (None of the above)
Correct Answer(s)
A. Decelerate ankle dorsiflexion
B. Iso metrically stabilixe the foot and ankle complex
13.

What is the isolated function of the muscle shown above
- A.
  
  Decelerate ankle dorsiflexion
- B.
  
  Iso metrically stabilixe the foot and ankle complex
- C.
  
  Concentrically accelerates plantarflexion
- D.
  
  Concentrically Plantarflexes the foot
- E.
  
  (None of the above)
Correct Answer
C. Concentrically accelerates plantarflexion
14.

What is the isolated function of the muscle shown above?
- A.
  
  Concentrically accelerates dorsiflextion and inversion
- B.
  
  Concentrically everts the foot
- C.
  
  Concentrically Plantarflexes the foot
- D.
  
  Concentrically accelerates plantarflexion
- E.
  
  (None of the above)
Correct Answer
C. Concentrically Plantarflexes the foot
15.

What is the integrated function of the muscle shown above?
- A.
  
  Decelerate ankle dorsiflexion
- B.
  
  Isometrically stabilizes the foot and ankle complex
- C.
  
  (None of the above)
- D.
  
  (All of the above)
Correct Answer
D. (All of the above)
16.

The Hamstring Complex is made up of what muscles?
- A.
  
  Vastus Lateralis
- B.
  
  Biceps Femoris - Long Head
- C.
  
  Biceps Femoris - Short Head
- D.
  
  Rectus Femoris
- E.
  
  (All of the above)
Correct Answer(s)
B. Biceps Femoris - Long Head
C. Biceps Femoris - Short Head

Explanation
The correct answer is (All of the above). The Hamstring Complex is made up of the Vastus Lateralis, Biceps Femoris - Long Head, Biceps Femoris - Short Head, and Rectus Femoris muscles.

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17.

The Hamstring Complex is made up of what muscles?
- A.
  
  Semitendinosus
- B.
  
  Adductor Magnus - Posterior Fibers
- C.
  
  Adductor Magnus - Anterior Fibers
- D.
  
  Semimembranosus
- E.
  
  (All of the above)
Correct Answer(s)
A. Semitendinosus
D. Semimembranosus

Explanation
The correct answer is "Semitendinosus" and "Semimembranosus". The Hamstring Complex is made up of these two muscles.

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18.

Concentrically, the Biceps Femoris long and short heads, Semimembranosus, and Semitendinosus all have what isolated function in common?

Correct Answer(s)
Accelerate knee flexion

Explanation
The Biceps Femoris long and short heads, Semimembranosus, and Semitendinosus all have the isolated function of accelerating knee flexion. This means that they work together to help bend the knee joint, allowing for movement such as walking, running, or sitting down.

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4
19.

What integrated isometrical function does the Biceps Femoris long and short heads, Semimembranosus, and Semitendinosus have in common?

Correct Answer(s)
Stabilizes the knee

Explanation
The Biceps Femoris long and short heads, Semimembranosus, and Semitendinosus are all muscles that are located in the back of the thigh. One of the common functions of these muscles is to stabilize the knee joint. Stabilizing the knee is important for maintaining proper alignment and preventing excessive movement or instability in the joint. These muscles work together to provide stability and support to the knee during activities such as walking, running, and jumping.

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20.

What integrated eccentrical function does the Biceps Femoris long and short heads, Semimembranosus, and Semitendinosus have in common?

Correct Answer(s)
Decelerates knee extension

Explanation
The Biceps Femoris long and short heads, Semimembranosus, and Semitendinosus are all muscles that have the function of decelerating knee extension. This means that they work together to slow down the movement of straightening the knee joint, providing stability and control during this motion.

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21.

What integrated eccentrical function does the Biceps Femoris Long Head, Semimembranosus, and Semitendinosus have in common, which the Biceps Femoris Short Head does not?

Correct Answer(s)
decelerates hip flexion

Explanation
The Biceps Femoris Long Head, Semimembranosus, and Semitendinosus muscles all have the integrated function of decelerating hip flexion. This means that they help to slow down or control the movement of the hip joint when it is being flexed. On the other hand, the Biceps Femoris Short Head does not have this function, suggesting that it is not involved in decelerating hip flexion.

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22.

What integrated eccentrical function does the Biceps Femoris Long Head and Short Head have in common?

Correct Answer(s)
Decelerates tibial internal rotation

Explanation
The Biceps Femoris Long Head and Short Head both have the integrated eccentric function of decelerating tibial internal rotation. This means that they work together to slow down the inward rotation of the tibia bone during movement. This is an important function as it helps to stabilize the knee joint and prevent excessive rotation that could lead to injury.

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23.

What integrated eccentrical function does the Semimembranosus and Semitendinosus have in common?

Correct Answer(s)
Decelerates tibial external rotation

Explanation
The Semimembranosus and Semitendinosus muscles have a common integrated eccentric function, which is to decelerate tibial external rotation. This means that these muscles work together to slow down or control the rotation of the tibia bone in an outward direction. By performing this action, they help to stabilize the knee joint and prevent excessive rotation that could lead to injury or instability.

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4
24.

What integrated isometrical function does the Biceps Femoris Long Head, Semimembranosus, and Semitendinosus have in common?

Correct Answer(s)
Stabilizes the lumbo-pelvic-hip complex

Explanation
The Biceps Femoris Long Head, Semimembranosus, and Semitendinosus muscles all have the common function of stabilizing the lumbo-pelvic-hip complex. This means that these muscles work together to provide stability and support to the lower back, pelvis, and hip joints. They help maintain proper alignment and prevent excessive movement or instability in this area during various movements and activities.

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25.

The function(s) that is (are) unique to the Biceps Femoris-Long Head vs. Biceps Femoris-Short Head is?
- A.
  
  Concetric Tibial External Rotation
- B.
  
  Concentric Knee Flexion
- C.
  
  Concentric Hip Extension
- D.
  
  Eccentrically Decelerates Knee Extension
- E.
  
  Isometrically Stabilizes the Lumbo-Pelvic hip complex and knee
Correct Answer(s)
C. Concentric Hip Extension
E. Isometrically Stabilizes the Lumbo-Pelvic hip complex and knee

Explanation
The Biceps Femoris-Long Head and Biceps Femoris-Short Head muscles have different functions. The Biceps Femoris-Long Head is responsible for concentric hip extension, which means it helps in extending the hip joint. On the other hand, both the Biceps Femoris-Long Head and Biceps Femoris-Short Head muscles work together to isometrically stabilize the Lumbo-Pelvic hip complex and knee, providing stability to these areas during movement. Therefore, the unique functions of the Biceps Femoris-Long Head compared to the Biceps Femoris-Short Head are concentric hip extension and isometric stabilization of the Lumbo-Pelvic hip complex and knee.

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26.

The function(s) that is (are) unique to the Semimembranosus vs. Semitendinosus?
- A.
  
  Concentrically accelerates knee flexion, hip extension, and tibial internal rotation
- B.
  
  Integrated Isometrical stabilizes the lumbo-pelvic-hip complex
- C.
  
  Integrated eccentrical deceleration of tibial external rotation
- D.
  
  (All of the above)
- E.
  
  (None of the above)
Correct Answer
E. (None of the above)
27.

Name the muscles that are in the Quadriceps Complex?
- A.
  
  Vastus Lateralis
- B.
  
  Vastus Medialis
- C.
  
  Vastus Intermedius
- D.
  
  Rectus Femoris
- E.
  
  Adductor Magnus
Correct Answer(s)
A. Vastus Lateralis
B. Vastus Medialis
C. Vastus Intermedius
D. Rectus Femoris

Explanation
The muscles that are part of the Quadriceps Complex are the Vastus Lateralis, Vastus Medialis, Vastus Intermedius, and Rectus Femoris. These muscles are located in the front of the thigh and work together to extend the leg at the knee joint. The Quadriceps Complex is responsible for activities such as walking, running, and jumping.

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28.

All muscles of the Quadricep Complex have what isolated concentric function in common?

Correct Answer(s)
Accelerates knee extension

Explanation
The correct answer is "Accelerates knee extension." This means that all muscles of the Quadricep Complex work together to increase the angle between the thigh and the lower leg, resulting in the straightening of the knee joint. This common function allows for movements such as kicking, jumping, and standing up from a seated position.

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29.

What muscle of the Quadricep Complex has the additional unique isolated concentric function of accelerating hip flexion?
- A.
  
  Rectus Femoris
- B.
  
  Vastus Intermedius
- C.
  
  Vastus Medialis
- D.
  
  Vastus Lateralis
Correct Answer
A. Rectus Femoris

Explanation
The correct answer is Rectus Femoris. The rectus femoris is a muscle of the quadriceps complex that has the unique function of accelerating hip flexion. This means that it is primarily responsible for lifting the leg towards the torso, in addition to its role in extending the knee joint. The other muscles listed, the vastus intermedius, vastus medialis, and vastus lateralis, are all primarily involved in extending the knee joint and do not have the same isolated function of accelerating hip flexion.

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30.

All muscles of the Quadricep Complex have what integrated functions in common?Eccentrical:Isometrical:

Correct Answer
Eccentrical: Decelerate knee flexion, adduction, and internal rotation Isometrical: Stabilization of the knee

Explanation
The muscles of the Quadricep Complex have integrated functions in common. Eccentrical function involves decelerating knee flexion, adduction, and internal rotation, while isometrical function involves stabilization of the knee. This means that the muscles work together to control and slow down the movement of the knee during flexion, adduction, and internal rotation, and also provide stability to the knee joint.

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31.

The Adductor (part of the Hip Musculature) is divided up into various parts. Select the applicable parts.
- A.
  
  Adductor Magnus - Anterior Fibers
- B.
  
  Adductor Magnus - Medial Fibers
- C.
  
  Adductor Brevis
- D.
  
  Adductor Magnus - Posterior Fibers
- E.
  
  Adductor Longus
Correct Answer(s)
A. Adductor Magnus - Anterior Fibers
D. Adductor Magnus - Posterior Fibers
E. Adductor Longus

Explanation
The Adductor muscle, part of the hip musculature, is divided into various parts. The applicable parts include the Anterior Fibers and Posterior Fibers of the Adductor Magnus, as well as the Adductor Longus. The Adductor Brevis is not included in the applicable parts.

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32.

The Gluteals (Part of the hip musculature) are devided into how many sections?
- A.
  
  6
- B.
  
  5
- C.
  
  4
- D.
  
  3
- E.
  
  2
Correct Answer
C. 4

Explanation
The gluteals, which are part of the hip musculature, are divided into four sections. These sections include the gluteus maximus, gluteus medius, gluteus minimus, and tensor fasciae latae. Each section has its own specific functions and plays a role in hip movement and stability.

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33.

Choose the options which are part of the Gluetals (part of the hip musculature).
- A.
  
  Gluteus Maximus
- B.
  
  Gluteus Medius (Posterior)
- C.
  
  Gluteus Minimus
- D.
  
  Gluteus Medius (Anterior)
- E.
  
  (All of the Above)
Correct Answer
E. (All of the Above)

Explanation
The gluteals are a group of muscles located in the hip region. The gluteus maximus is the largest muscle in this group and is responsible for hip extension. The gluteus medius, both posterior and anterior portions, are smaller muscles that assist with hip abduction and rotation. The gluteus minimus is also a smaller muscle that assists with hip abduction. Therefore, all of the options listed - gluteus maximus, gluteus medius (posterior), gluteus minimus, and gluteus medius (anterior) - are part of the gluteals.

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34.

What function do all sections of the Gluteals perform
- A.
  
  Integrated Eccentric deceleration of hip flexion
- B.
  
  Integrated Eccentric deceleration of hip extension
- C.
  
  Isolated Concentric acceleration of hip flexion
- D.
  
  Integrated Isometrical stabilization of the lumbo-pelvic-hip complex
- E.
  
  (None of the above)
Correct Answer
D. Integrated Isometrical stabilization of the lumbo-pelvic-hip complex

Explanation
The gluteal muscles, including the gluteus maximus, medius, and minimus, perform the function of integrated isometrical stabilization of the lumbo-pelvic-hip complex. This means that they work together to provide stability and support to the lower back, pelvis, and hip joints during movement. They help maintain proper alignment and prevent excessive movement or rotation of these areas, which can help prevent injuries and improve overall movement efficiency.

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35.

What function (s) is (are) unique to the Gluteus Maximus
- A.
  
  Concentrically accelerates hip flexion
- B.
  
  Concentrically accelerates hip extension and external rotation
- C.
  
  Eccentrically decelerates hip external rotation
- D.
  
  Eccentrically decelerates hip flexion and internal rotation
- E.
  
  Decelerates tibial internal rotation via the iliotibial band
Correct Answer(s)
B. Concentrically accelerates hip extension and external rotation
D. Eccentrically decelerates hip flexion and internal rotation
E. Decelerates tibial internal rotation via the iliotibial band

Explanation
The Gluteus Maximus is responsible for concentrically accelerating hip extension and external rotation, meaning it helps to move the hip joint backward and rotate it outward. It also eccentrically decelerates hip flexion and internal rotation, meaning it helps to slow down the movement of the hip joint as it bends forward and rotates inward. Additionally, the Gluteus Maximus plays a role in decelerating tibial internal rotation by using the iliotibial band to prevent excessive inward rotation of the shin bone.

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36.

The Gluteus Minimus performs the same functions as the (blank).

Correct Answer(s)

Explanation
The Gluteus Minimus performs the same functions as the Gluteus Medius. Both muscles are located in the buttocks and are responsible for abduction, or moving the leg away from the midline of the body. They also assist in stabilizing the pelvis during walking or standing on one leg.

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37.

What muscle performs:Concentric acceleration of the hip abductions and external rotationsEccentric deceleration of hip adductions and internal rotationsIsometric stabalization of the lumbo-pelvic-hip complex

Correct Answer(s)

Explanation
The muscle that performs concentric acceleration of the hip abductions and external rotations, eccentric deceleration of hip adductions and internal rotations, and isometric stabilization of the lumbo-pelvic-hip complex is the gluteus medius. This muscle is located on the side of the hip and is responsible for these movements and stabilizing the pelvis during various activities such as walking and running.

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38.

What muscles are part of the hip musculature (excluding the Adductors and Gluteals)
- A.
  
  Gracilis
- B.
  
  Pectineus
- C.
  
  Tensor Fascia Latae
- D.
  
  Psoas
- E.
  
  (All of the above)
Correct Answer
E. (All of the above)

Explanation
The correct answer is (All of the above). The Gracilis, Pectineus, Tensor Fascia Latae, and Psoas muscles are all part of the hip musculature. These muscles play important roles in various movements and functions of the hip joint, such as flexion, abduction, and rotation. While the question specifically excludes the Adductors and Gluteals, it includes all the other muscles that are part of the hip musculature.

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39.

The Psoas muscle performs what issolated function (s)
- A.
  
  Concentriclally accelerates hip flexion
- B.
  
  Concentrically accelerates external hip rotation
- C.
  
  Concentrically rotates lumbar spine
- D.
  
  Concentrically extends lumbar spine
- E.
  
  (All of the above)
Correct Answer
E. (All of the above)

Explanation
The Psoas muscle performs all of the mentioned functions. It concentrically accelerates hip flexion, external hip rotation, and rotation of the lumbar spine. It also concentrically extends the lumbar spine.

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40.

The Tensor Fascia Latae (TFL) performs what issolated function (s)
- A.
  
  Concnetriclaly accelerates fip flextion
- B.
  
  Concentrically accelerates hip extension
- C.
  
  Concentreically accelerates hip internal rotation
- D.
  
  Concentrecally accelerates hip abduction
- E.
  
  (All of the above)
Correct Answer(s)
A. Concnetriclaly accelerates fip flextion
C. Concentreically accelerates hip internal rotation
D. Concentrecally accelerates hip abduction

Explanation
The Tensor Fascia Latae (TFL) performs the isolated functions of concentrically accelerating hip flexion, hip internal rotation, and hip abduction.

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41.

The Pectineus performs what issolated function (s)?
- A.
  
  Concentric acceleration of hip abductions
- B.
  
  Concentric acceleration of hip flexion
- C.
  
  Concentric acceleration of hip internal roation
- D.
  
  Concentric acceleration hip extension
- E.
  
  (All of the above)
Correct Answer(s)
A. Concentric acceleration of hip abductions
B. Concentric acceleration of hip flexion
C. Concentric acceleration of hip internal roation

Explanation
The Pectineus muscle is responsible for concentric acceleration of hip abductions, hip flexion, and hip internal rotation. This means that it helps in moving the hip joint away from the midline of the body, bending the hip joint forward, and rotating the hip joint inward. Therefore, the correct answer is "Concentric acceleration of hip abductions, Concentric acceleration of hip flexion, Concentric acceleration of hip internal rotation."

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42.

The Gracilis performs what issolated function (s)?
- A.
  
  Concentric accelerates hip adduction
- B.
  
  Concentric accelerates hip flexion
- C.
  
  Concentric accelerates hip internal rotation
- D.
  
  Concentric Assist tibial internal rotation
- E.
  
  (All of the above)
Correct Answer
E. (All of the above)

Explanation
The Gracilis muscle performs all of the functions mentioned in the options. It concentrically accelerates hip adduction, hip flexion, hip internal rotation, and also assists in tibial internal rotation.

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Oct 15, 2024

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Jan 17, 2009

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