Anatomy, Physiology & Disease Foundations for The Health Professions 2nd Edition by Deborah Roiger - Test Bank

Anatomy, Physiology & Disease Foundations for The Health Professions 2nd Edition by Deborah Roiger – Test Bank

 

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Anatomy, Physiology, & Disease, 2e (Roiger)

Chapter 5   The Muscular System

 

1) Which of the following combining forms means muscle?

1. A) myo/o
2. B) myco/o
3. C) sacr/o
4. D) sthen/o

 

Answer:  A

Explanation:  The combining form myo/o means muscle.

Section:  05.01

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.01 Use medical terminology related to the muscular system.

Bloom’s:  1. Remember

CAAHEP:  IV.P.3. Use medical terminology, pronouncing medical terms correctly, to communicate information, patient history, data and observations.

 

2) Which of the following combining forms means strength?

1. A) myo/o
2. B) muscul/o
3. C) sacr/o
4. D) sthen/o

 

Answer:  D

Explanation:  The combining form sthen/o means strength.

Section:  05.01

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.01 Use medical terminology related to the muscular system.

Bloom’s:  1. Remember

CAAHEP:  IV.P.3. Use medical terminology, pronouncing medical terms correctly, to communicate information, patient history, data and observations.

 

3) Which of the following combining forms means flesh?

1. A) myo/o
2. B) muscul/o
3. C) sacr/o
4. D) sthen/o

 

Answer:  C

Explanation:  The combining form sacr/o means flesh.

Section:  05.01

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.01 Use medical terminology related to the muscular system.

Bloom’s:  1. Remember

CAAHEP:  IV.P.3. Use medical terminology, pronouncing medical terms correctly, to communicate information, patient history, data and observations.

4) Which of the following terms refers to the attachment of a muscle to the bone or structure that does not move when the muscle contracts?

1. A) Insertion
2. B) Origin
3. C) Intrinsic
4. D) Extrinsic

 

Answer:  B

Explanation:  The origin is the attachment of a muscle to the bone or structure that does not move when the muscle contracts. Insertion is the attachment of a muscle to the bone or structure that does move when the muscle contracts. An intrinsic muscle is a muscle that has an origin and insertion located in the same body region. An extrinsic muscle is a muscle that has an origin located in a different body region than its insertion.

Section:  05.03

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.02 Define terms concerning muscle attachments and the ways muscles work in groups to aid, oppose, or modify each other’s actions.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

5) Which of the following terms refers to the attachment of a muscle to the bone or structure that does move when the muscle contracts?

1. A) Insertion
2. B) Origin
3. C) Intrinsic
4. D) Extrinsic

 

Answer:  A

Explanation:  The origin is the attachment of a muscle to the bone or structure that does not move when the muscle contracts. Insertion is the attachment of a muscle to the bone or structure that does move when the muscle contracts. An intrinsic muscle is a muscle that has an origin and insertion located in the same body region. An extrinsic muscle is a muscle that has an origin located in a different body region than its insertion.

Section:  05.03

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.02 Define terms concerning muscle attachments and the ways muscles work in groups to aid, oppose, or modify each other’s actions.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

6) Which of the following terms refers to a muscle that has an origin and insertion located in the same body region?

1. A) Insertion
2. B) Origin
3. C) Intrinsic
4. D) Extrinsic

 

Answer:  C

Explanation:  The origin is the attachment of a muscle to the bone or structure that does not move when the muscle contracts. Insertion is the attachment of a muscle to the bone or structure that does move when the muscle contracts. An intrinsic muscle is a muscle that has an origin and insertion located in the same body region. An extrinsic muscle is a muscle that has an origin located in a different body region than its insertion.

Section:  05.03

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.02 Define terms concerning muscle attachments and the ways muscles work in groups to aid, oppose, or modify each other’s actions.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

7) Which of the following terms refers to a muscle that has an origin located in a different body region than its insertion?

1. A) Insertion
2. B) Origin
3. C) Intrinsic
4. D) Extrinsic

 

Answer:  D

Explanation:  The origin is the attachment of a muscle to the bone or structure that does not move when the muscle contracts. Insertion is the attachment of a muscle to the bone or structure that does move when the muscle contracts. An intrinsic muscle is a muscle that has an origin and insertion located in the same body region. An extrinsic muscle is a muscle that has an origin located in a different body region than its insertion.

Section:  05.03

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.02 Define terms concerning muscle attachments and the ways muscles work in groups to aid, oppose, or modify each other’s actions.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

8) What does the term intrinsic refer to in regard to muscle?

1. A) Intrinsic describes a muscle that has an origin and insertion located in the same body region.
2. B) Intrinsic describes a muscle that has an origin and insertion located in different body regions.
3. C) Intrinsic describes the attachment of a muscle to the bone or structure that does not move when the muscle contracts.
4. D) Intrinsic describes the attachment of a muscle to the bone or structure that does move when the muscle contracts.

 

Answer:  A

Explanation:  The origin is the attachment of a muscle to the bone or structure that does not move when the muscle contracts. Insertion is the attachment of a muscle to the bone or structure that does move when the muscle contracts. An intrinsic muscle is a muscle that has an origin and insertion located in the same body region. An extrinsic muscle is a muscle that has an origin located in a different body region than its insertion.

Section:  05.03

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.02 Define terms concerning muscle attachments and the ways muscles work in groups to aid, oppose, or modify each other’s actions.

Bloom’s:  2. Understand

CAAHEP:  I.C.1. Describe structural organization of the human body

 

9) What does the term extrinsic refer to in regard to muscle?

1. A) Extrinsic describes a muscle that has an origin and insertion located in the same body region.
2. B) Extrinsic describes a muscle that has an origin and insertion located in different body regions.
3. C) Extrinsic describes the attachment of a muscle to the bone or structure that does not move when the muscle contracts.
4. D) Extrinsic describes the attachment of a muscle to the bone or structure that does move when the muscle contracts.

 

Answer:  B

Explanation:  The origin is the attachment of a muscle to the bone or structure that does not move when the muscle contracts. Insertion is the attachment of a muscle to the bone or structure that does move when the muscle contracts. An intrinsic muscle is a muscle that has an origin and insertion located in the same body region. An extrinsic muscle is a muscle that has an origin located in a different body region than its insertion.

Section:  05.03

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.02 Define terms concerning muscle attachments and the ways muscles work in groups to aid, oppose, or modify each other’s actions.

Bloom’s:  2. Understand

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

10) What is a fixator?

1. A) A muscle that holds an origin stable for another muscle
2. B) A muscle that has the same action
3. C) The main muscle of the synergist to perform the action
4. D) A muscle that has the opposite action

 

Answer:  A

Explanation:  A fixator is a muscle that holds an origin stable for another muscle. Synergists are muscles that have the same action. A prime mover is the main muscle of the synergists to perform the action. An antagonist is a muscle that has an opposite action.

Section:  05.03

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.02 Define terms concerning muscle attachments and the ways muscles work in groups to aid, oppose, or modify each other’s actions.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

11) What is a prime mover?

1. A) A muscle that holds an origin stable for another muscle
2. B) A muscle that has the same action
3. C) The main muscle of the synergist to perform the action
4. D) A muscle that has the opposite action

 

Answer:  C

Explanation:  A fixator is a muscle that holds an origin stable for another muscle. Synergists are muscles that have the same action. A prime mover is the main muscle of the synergists to perform the action. An antagonist is a muscle that has an opposite action.

Section:  05.03

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.02 Define terms concerning muscle attachments and the ways muscles work in groups to aid, oppose, or modify each other’s actions.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

12) What is a synergist?

1. A) A muscle that holds an origin stable for another muscle
2. B) A muscle that has the same action
3. C) The main muscle of the synergist to perform the action
4. D) A muscle that has the opposite action

 

Answer:  B

Explanation:  A fixator is a muscle that holds an origin stable for another muscle. Synergists are muscles that have the same action. A prime mover is the main muscle of the synergists to perform the action. An antagonist is a muscle that has an opposite action.

Section:  05.03

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.02 Define terms concerning muscle attachments and the ways muscles work in groups to aid, oppose, or modify each other’s actions.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

13) What is an antagonist?

1. A) A muscle that holds an origin stable for another muscle
2. B) A muscle that has the same action
3. C) The main muscle of the synergist to perform the action
4. D) A muscle that has the opposite action

 

Answer:  D

Explanation:  A fixator is a muscle that holds an origin stable for another muscle. Synergists are muscles that have the same action. A prime mover is the main muscle of the synergists to perform the action. An antagonist is a muscle that has an opposite action.

Section:  05.03

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.02 Define terms concerning muscle attachments and the ways muscles work in groups to aid, oppose, or modify each other’s actions.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

14) What is the term for a muscle that holds an origin stable for another muscle?

1. A) Fixator
2. B) Synergist
3. C) Prime mover
4. D) Antagonist

 

Answer:  A

Explanation:  A fixator is a muscle that holds an origin stable for another muscle. Synergists are muscles that have the same action. A prime mover is the main muscle of the synergists to perform the action. An antagonist is a muscle that has an opposite action.

Section:  05.03

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.02 Define terms concerning muscle attachments and the ways muscles work in groups to aid, oppose, or modify each other’s actions.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

15) What is the term for muscles that have the same action?

1. A) Fixators
2. B) Synergists
3. C) Prime movers
4. D) Antagonists

 

Answer:  B

Explanation:  A fixator is a muscle that holds an origin stable for another muscle. Synergists are muscles that have the same action. A prime mover is the main muscle of the synergists to perform the action. An antagonist is a muscle that has an opposite action.

Section:  05.03

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.02 Define terms concerning muscle attachments and the ways muscles work in groups to aid, oppose, or modify each other’s actions.

Bloom’s:  1. Remember

CAAHEP:  IV.P.3. Use medical terminology, pronouncing medical terms correctly, to communicate information, patient history, data and observations.

 

 

16) What is the term for muscles that have opposite actions?

1. A) Fixators
2. B) Synergists
3. C) Prime movers
4. D) Antagonists

 

Answer:  D

Explanation:  A fixator is a muscle that holds an origin stable for another muscle. Synergists are muscles that have the same action. A prime mover is the main muscle of the synergists to perform the action. An antagonist is a muscle that has an opposite action.

Section:  05.03

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.02 Define terms concerning muscle attachments and the ways muscles work in groups to aid, oppose, or modify each other’s actions.

Bloom’s:  1. Remember

CAAHEP:  IV.P.3. Use medical terminology, pronouncing medical terms correctly, to communicate information, patient history, data and observations.

 

17) What is the term for the main muscle of the synergist to perform the action?

1. A) Fixator
2. B) Synergist
3. C) Prime mover
4. D) Antagonist

 

Answer:  C

Explanation:  A fixator is a muscle that holds an origin stable for another muscle. Synergists are muscles that have the same action. A prime mover is the main muscle of the synergists to perform the action. An antagonist is a muscle that has an opposite action.

Section:  05.03

Topic:  Gross anatomy of skeletal muscle

Learning Objective:  05.02 Define terms concerning muscle attachments and the ways muscles work in groups to aid, oppose, or modify each other’s actions.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

18) Which term describes bending a body part anteriorly?

1. A) Flexion
2. B) Extension
3. C) Abduction
4. D) Adduction

 

Answer:  A

Explanation:  Flexion is to bend a part of the body anteriorly, such as flexing the elbow. Extension is to bend part of the body posteriorly, such as straightening the arm at the elbow. Abduction is to take a part of the body away from the midline. Adduction is to bring a part of the body toward the midline.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

19) Which term describes bending a body part posteriorly?

1. A) Flexion
2. B) Extension
3. C) Abduction
4. D) Adduction

 

Answer:  B

Explanation:  Flexion is to bend a part of the body anteriorly, such as flexing the elbow. Extension is to bend part of the body posteriorly, such as straightening the arm at the elbow. Abduction is to take a part of the body away from the midline. Adduction is to bring a part of the body toward the midline.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

20) Which term describes taking a body part away from the midline?

1. A) Flexion
2. B) Extension
3. C) Abduction
4. D) Adduction

 

Answer:  C

Explanation:  Flexion is to bend a part of the body anteriorly, such as flexing the elbow. Extension is to bend part of the body posteriorly, such as straightening the arm at the elbow. Abduction is to take a part of the body away from the midline. Adduction is to bring a part of the body toward the midline.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

21) Which term describes bringing a body part toward the midline?

1. A) Flexion
2. B) Extension
3. C) Abduction
4. D) Adduction

 

Answer:  D

Explanation:  Flexion is to bend a part of the body anteriorly, such as flexing the elbow. Extension is to bend part of the body posteriorly, such as straightening the arm at the elbow. Abduction is to take a part of the body away from the midline. Adduction is to bring a part of the body toward the midline.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

22) A person doing jumping jacks is performing which set of muscle action?

1. A) Extension and flexion
2. B) Abduction and adduction
3. C) Protraction and retraction
4. D) Inversion and eversion

 

Answer:  B

Explanation:  Abduction is to take a part of the body away from the midline. Adduction is to bring a part of the body toward the midline. A person doing jumping jacks is abducting and adducting the arms and legs.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

23) A person moving their jaw to the side is performing what muscle action?

1. A) Protraction
2. B) Retraction
3. C) Lateral excursion
4. D) Medial excursion

 

Answer:  C

Explanation:  Protraction means to bring part of the body forward. Retraction means to bring part of the body backward. Lateral excursion means to move the jaw laterally to either side. Medial excursion means to bring the jaw back to the midline.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

24) A person bringing part of the body backward is performing which muscle action?

1. A) Protraction
2. B) Retraction
3. C) Lateral excursion
4. D) Medial excursion

 

Answer:  B

Explanation:  Protraction means to bring part of the body forward. Retraction means to bring part of the body backward. Lateral excursion means to move the jaw laterally to either side. Medial excursion means to bring the jaw back to the midline.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

25) A person bringing part of the body forward is performing which muscle action?

1. A) Protraction
2. B) Retraction
3. C) Lateral excursion
4. D) Medial excursion

 

Answer:  A

Explanation:  Protraction means to bring part of the body forward. Retraction means to bring part of the body backward. Lateral excursion means to move the jaw laterally to either side. Medial excursion means to bring the jaw back to the midline.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

26) If a person brings the soles of his or her feet together so they are facing each other, what muscle action is he or she performing?

1. A) Dorsiflexion
2. B) Plantar flexion
3. C) Inversion
4. D) Eversion

 

Answer:  C

Explanation:  Dorsiflexion means to stand on the heels with the toes pointing up off the floor. Plantar flexion means to stand on tiptoes with the heels off the floor. Inversion means to bring the soles of the feet together, facing each other. Eversion means to point the soles of the feet away from each other.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

27) If a person stands on his or her heels with their toes pointing up, what muscle action is he or she performing?

1. A) Dorsiflexion
2. B) Plantar flexion
3. C) Inversion
4. D) Eversion

 

Answer:  A

Explanation:  Dorsiflexion means to stand on the heels with the toes pointing up off the floor. Plantar flexion means to stand on tiptoes with the heels off the floor. Inversion means to bring the soles of the feet together, facing each other. Eversion means to point the soles of the feet away from each other.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.05 Describe the structural components of a muscle, including the connective tissues.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

28) If a person stands on his or her tiptoes with their heels off the floor, what muscle action is he or she performing?

1. A) Dorsiflexion
2. B) Plantar flexion
3. C) Inversion
4. D) Eversion

 

Answer:  B

Explanation:  Dorsiflexion means to stand on the heels with the toes pointing up off the floor. Plantar flexion means to stand on tiptoes with the heels off the floor. Inversion means to bring the soles of the feet together, facing each other. Eversion means to point the soles of the feet away from each other.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

29) If a person points the soles of his or her feet away from each other, what muscle action is he or she performing?

1. A) Dorsiflexion
2. B) Plantar flexion
3. C) Inversion
4. D) Eversion

 

Answer:  D

Explanation:  Dorsiflexion means to stand on the heels with the toes pointing up off the floor. Plantar flexion means to stand on tiptoes with the heels off the floor. Inversion means to bring the soles of the feet together, facing each other. Eversion means to point the soles of the feet away from each other.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

30) If you can hold soup in the palm of your hand without spilling it, what muscle action are you performing?

1. A) Rotation
2. B) Circumduction
3. C) Supination
4. D) Pronation

 

Answer:  C

Explanation:  Rotation is to spin on an axis. Pointing your toes to the side would involve lateral rotation of the leg. Circumduction is to make a circle with part of the body. A baseball or softball pitch involves circumduction at the shoulder. Supination is to turn the palms up. You could hold soup in the palm of your hand when your palm is supinated. Pronation is to turn the palms down. You would pour soup from your hand during pronation.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

31) If you pour soup from your hand by holding the bowl in your palm and turning it upside down, what muscle action are you performing?

1. A) Rotation
2. B) Circumduction
3. C) Supination
4. D) Pronation

 

Answer:  D

Explanation:  Rotation is to spin on an axis. Pointing your toes to the side would involve lateral rotation of the leg. Circumduction is to make a circle with part of the body. A baseball or softball pitch involves circumduction at the shoulder. Supination is to turn the palms up. You could hold soup in the palm of your hand when your palm is supinated. Pronation is to turn the palms down. You would pour soup from your hand during pronation.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

32) What muscle action means to spin on an axis?

1. A) Rotation
2. B) Circumduction
3. C) Supination
4. D) Pronation

 

Answer:  A

Explanation:  Rotation is to spin on an axis. Pointing your toes to the side would involve lateral rotation of the leg. Circumduction is to make a circle with part of the body. A baseball or softball pitch involves circumduction at the shoulder. Supination is to turn the palms up. You could hold soup in the palm of your hand when your palm is supinated. Pronation is to turn the palms down. You would pour soup from your hand during pronation.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

33) What muscle action means to make a circle with part of the body?

1. A) Rotation
2. B) Circumduction
3. C) Supination
4. D) Pronation

 

Answer:  B

Explanation:  Rotation is to spin on an axis. Pointing your toes to the side would involve lateral rotation of the leg. Circumduction is to make a circle with part of the body. A baseball or softball pitch involves circumduction at the shoulder. Supination is to turn the palms up. You could hold soup in the palm of your hand when your palm is supinated. Pronation is to turn the palms down. You would pour soup from your hand during pronation.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

34) A hitchhiker is doing what muscle action with his thumb?

1. A) Opposition
2. B) Reposition
3. C) Elevation
4. D) Depression

 

Answer:  B

Explanation:  Opposition is to bring the thumb to the palm. Reposition is to take the thumb away from the palm. Elevation is to close the jaw or raise the shoulders. Depression is to open the jaw or lower the shoulders.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

 

35) What muscle action means to bring the thumb to the palm?

1. A) Opposition
2. B) Reposition
3. C) Elevation
4. D) Depression

 

Answer:  A

Explanation:  Opposition is to bring the thumb to the palm. Reposition is to take the thumb away from the palm. Elevation is to close the jaw or raise the shoulders. Depression is to open the jaw or lower the shoulders.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

36) What muscle action means to raise the shoulders or close the jaw?

1. A) Opposition
2. B) Reposition
3. C) Elevation
4. D) Depression

 

Answer:  C

Explanation:  Opposition is to bring the thumb to the palm. Reposition is to take the thumb away from the palm. Elevation is to close the jaw or raise the shoulders. Depression is to open the jaw or lower the shoulders.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

37) What muscle action means to lower the shoulders or open the jaw?

1. A) Opposition
2. B) Reposition
3. C) Elevation
4. D) Depression

 

Answer:  D

Explanation:  Opposition is to bring the thumb to the palm. Reposition is to take the thumb away from the palm. Elevation is to close the jaw or raise the shoulders. Depression is to open the jaw or lower the shoulders.

Section:  05.03

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.03 Demonstrate actions caused by muscles.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

38) All of the following are muscles of the head and neck except which one?

1. A) Orbicularis oris
2. B) Occipitalis
3. C) Pectoralis major
4. D) Buccinator

 

Answer:  C

Explanation:  Pectoralis major is a muscle in the thorax.

Section:  05.03

Topic:  Skeletal muscles of the head and neck

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

39) All of the following are muscles of the thorax and abdomen except which one?

1. A) Orbicularis oris
2. B) Diaphragm
3. C) Pectoralis major
4. D) Rectus abdominus

 

Answer:  A

Explanation:  Orbicularis oris is a muscle in the head.

Section:  05.03

Topic:  Skeletal muscles of the trunk

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

40) All of the following are muscles of the back and buttocks except which one?

1. A) Deltoid
2. B) Trapezius
3. C) Erector spinae
4. D) Gluteus medius

 

Answer:  A

Explanation:  The deltoid is a muscle in the arm.

Section:  05.03

Topic:  Skeletal muscles of the trunk

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

 

41) All of the following are muscles of the arm or forearm except which one?

1. A) Deltoid
2. B) Brachialis
3. C) Erector spinae
4. D) Extensor carpi ulnaris

 

Answer:  C

Explanation:  The erector spinae muscle is in the back.

Section:  05.03

Topic:  Skeletal muscles of the pectoral girdle and upper limb

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

42) All of the following are muscles of the thigh or leg except which one?

1. A) Gracilis
2. B) Brachialis
3. C) Sartorius
4. D) Soleus

 

Answer:  B

Explanation:  The brachialis muscle is in the arm.

Section:  05.03

Topic:  Skeletal muscles of the pelvic girdle and lower limb

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

43) Which of the following muscles functions to close the eye?

1. A) Gracilis
2. B) Brachialis
3. C) Orbicularis oculi
4. D) Soleus

 

Answer:  C

Explanation:  The orbicularis oculi closes the eye. The other muscles are not found in the head.

Section:  05.03

Topic:  Skeletal muscles of the head and neck

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

 

44) Which of the following muscles has an insertion on the mandible?

1. A) Temporalis
2. B) Masseter
3. C) Platysma
4. D) All of these muscles insert on the mandible.

 

Answer:  D

Explanation:  The temporalis, masseter, and platysma all insert on the mandible.

Section:  05.03

Topic:  Skeletal muscles of the head and neck

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  3. Apply

CAAHEP:  I.C.1. Describe structural organization of the human body

45) What is the origin of the frontalis muscle?

1. A) Skin of the forehead
2. B) Epicranial aponeurosis
3. C) Temporal bone
4. D) Medial eye orbit

 

Answer:  B

Explanation:  The frontalis muscle has an origin on the epicranial aponeurosis and an insertion on the skin of the forehead.

Section:  05.03

Topic:  Skeletal muscles of the head and neck

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

46) Which group of muscles below are synergists?

1. A) Frontalis and occipitalis
2. B) Buccinator and sternocleidomastoid
3. C) Temporalis and masseter
4. D) Masseter and platysma

 

Answer:  C

Explanation:  The temporalis and masseter muscles have the same action and are therefore synergists.

Section:  05.03

Topic:  Skeletal muscles of the head and neck

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  4. Analyze

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

 

47) Which group of muscles below are antagonists?

1. A) Frontalis and occipitalis
2. B) Buccinator and sternocleidomastoid
3. C) Temporalis and masseter
4. D) Masseter and platysma

 

Answer:  D

Explanation:  The masseter and platysma muscles have the opposite actions and are therefore antagonists.

Section:  05.03

Topic:  Skeletal muscles of the head and neck

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  4. Analyze

CAAHEP:  I.C.5. Describe the normal function of each body system

48) Which answer choice lists the layers of the abdominal wall from most superficial to deepest?

1. A) Transverse abdominus, external abdominal oblique, internal abdominal oblique
2. B) Internal abdominal oblique, external abdominal oblique, transverse abdominus
3. C) Internal abdominal oblique, transverse abdominus, external abdominal oblique
4. D) External abdominal oblique, internal abdominal oblique, transverse abdominus

 

Answer:  D

Explanation:  The layers of the abdominal wall from most superficial to deepest are external abdominal oblique, internal abdominal oblique and transverse abdominus.

Section:  05.03

Topic:  Skeletal muscles of the trunk

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  3. Apply

CAAHEP:  I.C.1. Describe structural organization of the human body

 

49) All of the following have an origin on a part of the ribs except which one?

1. A) Pectoralis major
2. B) Serratus anterior
3. C) Diaphragm
4. D) External abdominal oblique

 

Answer:  C

Explanation:  The diaphragm has an origin on the xyphoid process, costal cartilages, and lumbar vertebrae.

Section:  05.03

Topic:  Skeletal muscles of the trunk

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  4. Analyze

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

 

50) What is the function of the rectus abdominus?

1. A) Compress the thoracic cavity
2. B) Compress the abdomen
3. C) Flex the spine
4. D) Rotate the waist

 

Answer:  C

Explanation:  The rectus abdominus functions to flex the spine.

Section:  05.03

Topic:  Skeletal muscles of the trunk

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  2. Understand

CAAHEP:  I.C.1. Describe structural organization of the human body

51) What is the insertion of the pectoralis major?

1. A) Scapula
2. B) Humerus
3. C) Ribs
4. D) Pubis

 

Answer:  B

Explanation:  The pectoralis major inserts on the humerus.

Section:  05.03

Topic:  Skeletal muscles of the pectoral girdle and upper limb

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

52) Which of the following extends and laterally rotates the hip?

1. A) Trapezius
2. B) Latissimus dorsi
3. C) Gluteus maximus
4. D) Gluteus medius

 

Answer:  C

Explanation:  The gluteus maximus extends and laterally rotates the hip.

Section:  05.03

Topic:  Skeletal muscles of the pectoral girdle and upper limb

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

 

53) All of the following muscles flex the elbow except which one?

1. A) Biceps brachii
2. B) Triceps brachii
3. C) Brachialis
4. D) Brachioradialis

 

Answer:  B

Explanation:  The triceps brachii extends the elbow.

Section:  05.03

Topic:  Skeletal muscles of the pectoral girdle and upper limb

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

54) All of the following muscles have an origin on the humerus except which one?

1. A) Biceps brachii
2. B) Triceps brachii
3. C) Brachialis
4. D) Brachioradialis

 

Answer:  A

Explanation:  The biceps brachii has an origin on the scapula.

Section:  05.03

Topic:  Skeletal muscles of the pectoral girdle and upper limb

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  4. Analyze

CAAHEP:  I.C.1. Describe structural organization of the human body

 

55) Which of the following muscles inserts on the metacarpals and the carpals?

1. A) Extensor carpi radialis
2. B) Extensor carpi ulnaris
3. C) Flexor carpi radialis
4. D) Flexor carpi ulnaris

 

Answer:  B

Explanation:  The extensor carpi ulnaris inserts on the carpals and metacarpals while the other muscles listed insert only on the metacarpals.

Section:  05.03

Topic:  Skeletal muscles of the pectoral girdle and upper limb

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  4. Analyze

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

 

56) In the forearm, all flexors originate where?

1. A) At the lateral epicondyle of the humerus
2. B) At the medial epicondyle of the femur
3. C) At the medial epicondyle of the humerus
4. D) At the lateral epicondyle of the femur

 

Answer:  C

Explanation:  In the forearm, all flexors originate at the medial epicondyle of the humerus, while all extensors originate at the lateral epicondyle of the humerus.

Section:  05.03

Topic:  Skeletal muscles of the pectoral girdle and upper limb

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  4. Analyze

CAAHEP:  I.C.1. Describe structural organization of the human body

57) What is the function of the sartorius?

1. A) Flex the knee and flex the hip
2. B) Flex the knee and adduct the hip
3. C) Extend the knee and flex the hip
4. D) Extend the knee

 

Answer:  A

Explanation:  The sartorius flexes the hip and knee.

Section:  05.03

Topic:  Skeletal muscles of the pelvic girdle and lower limb

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

58) All of the following muscles make up the hamstring except which one?

1. A) Biceps femoris
2. B) Semitendinosus
3. C) Semimembranosus
4. D) Gracilis

 

Answer:  D

Explanation:  The gracilis is not part of the hamstring.

Section:  05.03

Topic:  Skeletal muscles of the pelvic girdle and lower limb

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  2. Understand

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

 

59) All of the following muscles originate on the femur except which one?

1. A) Rectus femoris
2. B) Vastus lateralis
3. C) Vastus medialis
4. D) Vastus intermedius

 

Answer:  A

Explanation:  The rectus femoris originates on the ilium.

Section:  05.03

Topic:  Skeletal muscles of the pelvic girdle and lower limb

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  4. Analyze

CAAHEP:  I.C.1. Describe structural organization of the human body

60) The gracilis, adductor longus, and pectineus are synergists that perform what function?

1. A) Hip extension
2. B) Hip flexion
3. C) Hip adduction
4. D) Hip abduction

 

Answer:  C

Explanation:  The gracilis, adductor longus, and pectineus are synergists that perform hip adduction.

Section:  05.03

Topic:  Skeletal muscles of the pelvic girdle and lower limb

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

61) The gastrocnemius and soleus perform what action?

1. A) Synergists for doriflexion
2. B) Synergists for plantar flexion
3. C) Antagonists for plantar flexion
4. D) Eversion of the foot

 

Answer:  B

Explanation:  The gastrocnemius and soleus are synergists for plantar flexion.

Section:  05.03

Topic:  Skeletal muscles of the pelvic girdle and lower limb

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  2. Understand

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

 

62) Which muscle dorsiflexes and inverts the foot?

1. A) Gastrocnemius
2. B) Soleus
3. C) Peroneus
4. D) Tibialis anterior

 

Answer:  D

Explanation:  The tibialis anterior dorisflexes and inverts the foot.

Section:  05.03

Topic:  Skeletal muscles of the pelvic girdle and lower limb

Learning Objective:  05.04 Identify muscles, giving the origin, insertion, and action.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

63) What is the connective tissue that surrounds the fascicle?

1. A) Fascia
2. B) Epimysium
3. C) Endomysium
4. D) Perimysium

 

Answer:  D

Explanation:  An individual muscle cell (muscle fiber) is surrounded by connective tissue called the endomysium. Muscle fibers are grouped together to form a fascicle, which is surrounded by connective tissue called the perimysium. The fascicles are grouped together to form the muscle. The entire muscle is surrounded by a connective tissue called the epimysium.

Section:  05.03

Topic:  Microscopic anatomy of skeletal muscle

Learning Objective:  05.05 Describe the structural components of a muscle, including the connective tissues.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

 

64) What is the connective tissue that surrounds the entire muscle?

1. A) Fascia
2. B) Epimysium
3. C) Endomysium
4. D) Perimysium

 

Answer:  B

Explanation:  An individual muscle cell (muscle fiber) is surrounded by connective tissue called the endomysium. Muscle fibers are grouped together to form a fascicle, which is surrounded by connective tissue called the perimysium. The fascicles are grouped together to form the muscle. The entire muscle is surrounded by a connective tissue called the epimysium.

Section:  05.03

Topic:  Microscopic anatomy of skeletal muscle

Learning Objective:  05.05 Describe the structural components of a muscle, including the connective tissues.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

65) What is the connective tissue that surrounds several muscles of an area forming muscle compartments?

1. A) Fascia
2. B) Epimysium
3. C) Endomysium
4. D) Perimysium

 

Answer:  A

Explanation:  An individual muscle cell (muscle fiber) is surrounded by connective tissue called the endomysium. Muscle fibers are grouped together to form a fascicle, which is surrounded by connective tissue called the perimysium. The fascicles are grouped together to form the muscle. The entire muscle is surrounded by a connective tissue called the epimysium. Fascia is a tough, fibrous tissue that does not allow for expansion. It surrounds several muscles of an area forming muscle compartments, and it separates muscle from the hypodermis.

Section:  05.03

Topic:  Microscopic anatomy of skeletal muscle

Learning Objective:  05.05 Describe the structural components of a muscle, including the connective tissues.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

 

66) The muscle cell membrane is called what?

1. A) Sarcolemma
2. B) Sarcoplasmic reticulum
3. C) Sarcomere
4. D) Myofibril

 

Answer:  A

Explanation:  The cell membrane is called the sarcolemma. The smooth endoplasmic reticulum of the cell is called the sarcoplasmic reticulum. Its function is to store calcium ions until they are needed. Notice that a muscle cell is a bundle of myofibrils, but there is no connective tissue surrounding each of the myofibrils. Myofibrils are composed of a series of repeated functional units called sarcomeres running end to end.

Section:  05.03

Topic:  Microscopic anatomy of skeletal muscle

Learning Objective:  05.06 Describe the structural components of a skeletal muscle fiber, including the major proteins.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

67) The functional units of a muscle cell are composed of what?

1. A) Sarcolemma
2. B) Sarcoplasmic reticulum
3. C) Sarcomere
4. D) Myofibril

 

Answer:  D

Explanation:  The cell membrane is called the sarcolemma. The smooth endoplasmic reticulum of the cell is called the sarcoplasmic reticulum. Its function is to store calcium ions until they are needed. A muscle cell is a bundle of myofibrils, but there is no connective tissue surrounding each of the myofibrils. Myofibrils are composed of a series of repeated functional units called sarcomeres running end to end.

Section:  05.03

Topic:  Microscopic anatomy of skeletal muscle

Learning Objective:  05.06 Describe the structural components of a skeletal muscle fiber, including the major proteins.

Bloom’s:  2. Understand

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

 

68) Z-lines form the ends of what structure?

1. A) Sarcolemma
2. B) Sarcoplasmic reticulum
3. C) Sarcomere
4. D) Myofibril

 

Answer:  C

Explanation:  Myofibrils are composed of a series of repeated functional units called sarcomeres running end to end. Z-lines form the ends of a sarcomere, which is composed of thick and thin filaments (myofilaments) made of protein.

Section:  05.03

Topic:  Microscopic anatomy of skeletal muscle

Learning Objective:  05.06 Describe the structural components of a skeletal muscle fiber, including the major proteins.

Bloom’s:  2. Understand

CAAHEP:  I.C.1. Describe structural organization of the human body

69) Which of the following statements about sarcomeres is false?

1. A) Sarcomeres are made of thick and thin myofilaments.
2. B) Only thick myofilaments attach to Z-lines.
3. C) Thin myofilaments are composed of actin, tropomyosin, and troponin.
4. D) Thick myofilaments are composed of myosin.

 

Answer:  B

Explanation:  Only thin myofilaments attach to Z-lines.

Section:  05.03

Topic:  Microscopic anatomy of skeletal muscle

Learning Objective:  05.06 Describe the structural components of a skeletal muscle fiber, including the major proteins.

Bloom’s:  3. Apply

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

 

70) Which term describes the ability of a muscle cell to be stretched and return to its original shape?

1. A) Excitability
2. B) Extensibility
3. C) Contractility
4. D) Elasticity

 

Answer:  D

Explanation:  Excitability means a muscle cell can be stimulated by a nerve to contract. Conductivity means the stimulation from the nerve moves quickly along the length of the muscle cell. Contractility means a muscle cell can shorten with force. Muscles can only pull. They cannot push. Extensibility means a muscle cell can be stretched. Elasticity means if a muscle cell is stretched, it will return to its original shape.

Section:  05.04

Topic:  General functions of muscle tissue

Learning Objective:  05.07 Explain the five physiological characteristics of all muscle tissue.

Bloom’s:  2. Understand

CAAHEP:  I.C.5. Describe the normal function of each body system

71) Which term describes the ability of a muscle cell to shorten with force?

1. A) Excitability
2. B) Extensibility
3. C) Contractility
4. D) Elasticity

 

Answer:  C

Explanation:  Excitability means a muscle cell can be stimulated by a nerve to contract. Conductivity means the stimulation from the nerve moves quickly along the length of the muscle cell. Contractility means a muscle cell can shorten with force. Muscles can only pull. They cannot push. Extensibility means a muscle cell can be stretched. Elasticity means if a muscle cell is stretched, it will return to its original shape.

Section:  05.04

Topic:  General functions of muscle tissue

Learning Objective:  05.07 Explain the five physiological characteristics of all muscle tissue.

Bloom’s:  2. Understand

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

 

72) A stimulated muscle cell signals the release of what chemical from the synaptic knob?

1. A) Acetylcholine
2. B) Actin
3. C) Myosin
4. D) Tropomyosin

 

Answer:  A

Explanation:  Acetylcholine is a neurotransmitter that is released from the synaptic knob of a stimulated muscle cell.

Section:  05.04

Topic:  Microscopic anatomy of skeletal muscle

Learning Objective:  05.08 Explain how a nerve stimulates a muscle cell at a neuromuscular junction.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

73) Which statement about a muscle’s response to nerve stimulation is true?

1. A) A muscle’s response to nerve stimulation is all or nothing.
2. B) A muscle’s response to nerve stimulation is based on the threshold amount of acetylcholine fitting into receptors.
3. C) A muscle’s response to nerve stimulation is ultimately responsible for conductivity and contractility.
4. D) All of these answers are correct.

 

Answer:  D

Explanation:  A muscle’s response to nerve stimulation is all or nothing based on a threshold amount of acetylcholine fitting into receptors. Once the threshold is reached, conductivity and contractility will occur.

Section:  05.04

Topic:  Microscopic anatomy of skeletal muscle

Learning Objective:  05.08 Explain how a nerve stimulates a muscle cell at a neuromuscular junction.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

 

74) What theory of muscle contraction involves thick myofilaments grabbing thin myofilaments and pulling them toward the center of the sarcomere?

1. A) Cross-bridge theory
2. B) Power stroke theory
3. C) Sliding filament theory
4. D) All or nothing theory

 

Answer:  C

Explanation:  The sliding filament theory is the theory of muscle contraction that involves thick myofilaments grabbing thin myofilaments and pulling them toward the center of the sarcomere.

Section:  05.04

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.09 Describe a muscle contraction at the molecular level.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

75) What is a power stroke?

1. A) The electrical impulse that travels down the nerve cell to stimulate the muscle cell
2. B) The grabbing hold of the actin active sites by myosin
3. C) Myosin pulling on actin to draw Z-lines toward the center, shortening the sarcomere
4. D) The binding of ATP to myosin

 

Answer:  C

Explanation:  A power stroke is myosin pulling on actin to draw Z-lines toward the center, shortening the sarcomere.

Section:  05.04

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.09 Describe a muscle contraction at the molecular level.

Bloom’s:  2. Understand

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

 

76) Which phase of a contraction is calcium actively transported back to the sarcoplasmic reticulum?

1. A) Latent phase
2. B) Contraction phase
3. C) Relaxation phase
4. D) Refractory phase

 

Answer:  D

Explanation:  During the latent phase: The nerve impulse comes down the neuron. Acetylcholine is released and fits into the receptors on the muscle cell. The sarcoplasmic reticulum releases calcium. The calcium binds to troponin. Tropomyosin shifts position to expose the active sites.  Myosin grabs hold of actin. The muscle cell has not shortened during this phase. During the contraction phase: Myosin pulls (power stroke). The muscle cell shortens. During the relaxation phase: Myosin lets go. The muscle goes back to shape because it is elastic (elasticity). During the refractory phase: The calcium is actively transported back to the sarcoplasmic reticulum and the muscle produces acetylcholinesterase to remove the acetylcholine from the receptors. The muscle still appears to be relaxed.

Section:  05.04

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.09 Describe a muscle contraction at the molecular level.

Bloom’s:  4. Analyze

CAAHEP:  I.C.5. Describe the normal function of each body system

77) Which of the following describes an event that occurs in the latent phase of a muscle contraction?

1. A) Acetylcholine is released and fits into the receptors on the muscle cell.
2. B) The muscle goes back to shape because it is elastic.
3. C) Calcium is actively transported back to the sarcoplasmic reticulum and the muscle produces acetylcholinesterase to remove the acetylcholine from the receptors.
4. D) The muscle cell shortens.

 

Answer:  A

Explanation:  During the latent phase: The nerve impulse comes down the neuron. Acetylcholine is released and fits into the receptors on the muscle cell. The sarcoplasmic reticulum releases calcium. The calcium binds to troponin. Tropomyosin shifts position to expose the active sites.  Myosin grabs hold of actin. The muscle cell has not shortened during this phase. During the contraction phase: Myosin pulls (power stroke). The muscle cell shortens. During the relaxation phase: Myosin lets go. The muscle goes back to shape because it is elastic (elasticity). During the refractory phase: The calcium is actively transported back to the sarcoplasmic reticulum and the muscle produces acetylcholinesterase to remove the acetylcholine from the receptors. The muscle still appears to be relaxed.

Section:  05.04

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.10 Compare and contrast a muscle twitch and tetany with regard to the steps of a muscle contraction at the molecular level.

Bloom’s:  4. Analyze

CAAHEP:  I.C.5. Describe the normal function of each body system

 

78) What term describes a sustained muscle contraction?

1. A) Tetany
2. B) Tetanus
3. C) Twitch
4. D) Tetani

 

Answer:  A

Explanation:  If more and more nerve impulses come and complete their latent phases before the muscle cell can even begin to enter the relaxation phase from the first nerve impulse, the effect will be a sustained contraction called tetany.

Section:  05.04

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.10 Compare and contrast a muscle twitch and tetany with regard to the steps of a muscle contraction at the molecular level.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

79) What is a motor unit?

1. A) Involvement of multiple muscles for one movement
2. B) A single nerve cell and all the muscle cells it stimulates
3. C) A single nerve cell
4. D) Hundreds of nerve endings stimulating a group of muscles

 

Answer:  B

Explanation:  A motor unit is a single nerve cell and all of the muscle cells it stimulates.

Section:  05.04

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.11 Define a motor unit and explain the effect of recruitment.

Bloom’s:  2. Understand

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

 

80) Which statement correctly compares isotonic and isometric contractions?

1. A) Isotonic contractions involve increased tension in the muscle that results in no movement, while isometric contractions involve increased tension in the muscle that results in movement.
2. B) Isometric contractions involve increased tension in the muscle that results in movement, while isotonic contractions involve increased tension in the muscle resulting in no movement.
3. C) Isotonic contractions involve increased tension in the muscle that results in movement, while isometric contractions involve increased tension in the muscle resulting in no movement.
4. D) Isotonic contractions involve increased tension in the muscle that results in movement while isometric contractions involve decreased tension in the muscle resulting in no movement.

 

Answer:  C

Explanation:  In isotonic contractions, the tension in the muscles remains constant, and motion results. In isometric contractions, the muscles would have bulged with the increased tension, but movement would not result.

Section:  05.04

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.12 Compare and contrast isotonic and isometric contractions.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

81) What is a lever?

1. A) The weight to be lifted
2. B) The force applied to lift the weight
3. C) The pivot point that does not move
4. D) A rigid object used to lift something

 

Answer:  D

Explanation:  A lever is a rigid object that can be used to lift something. A basic lever system has these three parts: resistance is a weight to be lifted, effort is where the force is applied to lift the weight, and the fulcrum is a pivot point on the lever that does not move.

Section:  05.04

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.13 Describe an example of a lever system in the human body, giving the resistance, effort, and fulcrum.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

 

82) When discussing levers in the muscular system, which term does the insertion of the muscle describe?

1. A) Lever
2. B) Fulcrum
3. C) Resistance
4. D) Effort

 

Answer:  D

Explanation:  A lever is a rigid object that can be used to lift something. A basic lever system has these three parts: resistance is a weight to be lifted, effort is where the force is applied to lift the weight, and the fulcrum is a pivot point on the lever that does not move. In muscle lever systems, the fulcrum is a joint and the effort is at the insertion of the muscle.

Section:  05.04

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.13 Describe an example of a lever system in the human body, giving the resistance, effort, and fulcrum.

Bloom’s:  2. Understand

CAAHEP:  I.C.1. Describe structural organization of the human body

83) What is the most common lever system in the human body?

1. A) First class
2. B) Second class
3. C) Third class
4. D) Fourth class

 

Answer:  C

Explanation:  The third class lever system is the most common lever in the human body.

Section:  05.04

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.13 Describe an example of a lever system in the human body, giving the resistance, effort, and fulcrum.

Bloom’s:  1. Remember

CAAHEP:  I.C.1. Describe structural organization of the human body

 

 

 

84) In the lever where the biceps brachii flexes the elbow, what is the effort?

1. A) The hand
2. B) The insertion of the muscle on the radius
3. C) The radius
4. D) The elbow joint

 

Answer:  B

Explanation:  In the lever system where the biceps brachii muscle flexes the elbow, the radius is the lever. The weight being lifted is the hand. The effort is the insertion of the muscle on the radius. The fulcrum is the elbow joint and the elbow is the pivot point for the radius.

Section:  05.04

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.13 Describe an example of a lever system in the human body, giving the resistance, effort, and fulcrum.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

85) What type of cellular respiration do muscle cells perform when they do not have oxygen?

1. A) Glycolysis
2. B) Aerobic
3. C) Anaerobic
4. D) Either aerobic or anaerobic

 

Answer:  C

Explanation:  Muscle cells can perform either aerobic or anaerobic respiration to produce energy. Anaerobic respiration can be performed in the absence of oxygen. Glycolysis is the first step in both of these metabolic pathways.

Section:  05.04

Topic:  Skeletal muscle metabolism

Learning Objective:  05.14 Compare aerobic and anaerobic respiration in terms of amount of ATP produced, speed, and duration.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

 

86) Which statement comparing aerobic and anaerobic respiration is false?

1. A) Aerobic respiration takes longer than anaerobic respiration.
2. B) Aerobic respiration requires oxygen while anaerobic respiration does not.
3. C) Anaerobic respiration produces more ATP than aerobic respiration.
4. D) Anaerobic respiration produces lactic acid while aerobic respiration produces carbon dioxide.

 

Answer:  C

Explanation:  Anaerobic respiration produces less ATP than aerobic respiration.

Section:  05.04

Topic:  Skeletal muscle metabolism

Learning Objective:  05.14 Compare aerobic and anaerobic respiration in terms of amount of ATP produced, speed, and duration.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

87) Which statement about muscle fatigue is false?

1. A) The levels of lactic acid in the muscle build up during muscle fatigue.
2. B) Muscle cells become less able to respond to nerve stimuli.
3. C) The muscle may weaken to the point of being unable to respond.
4. D) Lactic acid build up is a slow process so activity fueled by anaerobic respiration can be extended.

 

Answer:  D

Explanation:  Activity fueled by anaerobic respiration is short lived because of the build up of lactic acid.

Section:  05.04

Topic:  Skeletal muscle metabolism

Learning Objective:  05.15 Explain the basis of muscle fatigue and soreness.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

88) Which type of muscle tissue is voluntary and under conscious control?

1. A) Skeletal
2. B) Cardiac
3. C) Smooth
4. D) All of the answers are correct

 

Answer:  A

Explanation:  Skeletal muscle is under voluntary control while smooth muscle and cardiac muscle are involuntary.

Section:  05.04

Topic:  Identification, location, and comparison of three types of muscle tissue

Learning Objective:  05.16 Compare and contrast skeletal, cardiac, and smooth muscle tissue in terms of appearance, structure, type of nerve stimulation, type of respiration, and location.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

89) Which type of muscle tissue has the ability to self-stimulate, meaning it requires no nerve stimulus for contraction?

1. A) Skeletal
2. B) Cardiac
3. C) Smooth
4. D) None of the answers are correct

 

Answer:  B

Explanation:  Cardiac muscle cells require no nerve stimulus for contraction.

Section:  05.04

Topic:  Identification, location, and comparison of three types of muscle tissue

Learning Objective:  05.16 Compare and contrast skeletal, cardiac, and smooth muscle tissue in terms of appearance, structure, type of nerve stimulation, type of respiration, and location.

Bloom’s:  2. Understand

CAAHEP:  I.C.5. Describe the normal function of each body system

 

90) Which type of muscle tissue performs aerobic respiration?

1. A) Skeletal
2. B) Cardiac
3. C) Smooth
4. D) All of the answers are correct

 

Answer:  D

Explanation:  All types of muscle tissue perform aerobic respiration.

Section:  05.04

Topic:  Identification, location, and comparison of three types of muscle tissue

Learning Objective:  05.16 Compare and contrast skeletal, cardiac, and smooth muscle tissue in terms of appearance, structure, type of nerve stimulation, type of respiration, and location.

Bloom’s:  2. Understand

CAAHEP:  I.C.5. Describe the normal function of each body system

91) Which type of muscle tissues performs anaerobic respiration?

1. A) Skeletal
2. B) Cardiac
3. C) Smooth
4. D) All of the answers are correct

 

Answer:  A

Explanation:  Only skeletal muscle is able to perform both aerobic and anaerobic respiration. Cardiac and smooth muscle only perform aerobic respiration.

Section:  05.04

Topic:  Identification, location, and comparison of three types of muscle tissue

Learning Objective:  05.16 Compare and contrast skeletal, cardiac, and smooth muscle tissue in terms of appearance, structure, type of nerve stimulation, type of respiration, and location.

Bloom’s:  2. Understand

CAAHEP:  I.C.5. Describe the normal function of each body system

 

92) In addition to the essential and non-essential amino acids required for muscle cell function, what minerals are required?

1. A) Iron and calcium
2. B) Magnesium and potassium
3. C) Calcium and potassium
4. D) Zinc and iron

 

Answer:  C

Explanation:  Calcium and potassium are necessary for muscle function.

Section:  05.04

Learning Objective:  05.17 Explain the nutritional requirements of the muscular system.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

93) What is the dietary recommended daily allowance of protein for a person of average weight?

1. A) 4,700 mg
2. B) 1,200 mg
3. C) 44–60 g
4. D) 44–60 mg

 

Answer:  C

Explanation:  The dietary recommended daily allowance of protein for a person of average weight is 44–60 g (grams).

Section:  05.04

Learning Objective:  05.17 Explain the nutritional requirements of the muscular system.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

94) All of the following are functions of the muscular system except which one?

1. A) Communication
2. B) Movement
3. C) Heat production
4. D) Electrolyte balance

 

Answer:  D

Explanation:  The five functions of the muscular system are: movement, stability, control of body openings and passages, communication, and heat production.

Section:  05.04

Topic:  General functions of muscle tissue

Learning Objective:  05.18 Summarize the five functions of the muscular system and give an example or explanation of each.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

 

95) What function of the muscular system is performed when a person’s facial expression can tell you how they feel?

1. A) Communication
2. B) Movement
3. C) Heat production
4. D) Stability

 

Answer:  A

Explanation:  Muscles can be used to communicate feelings through facial expressions.

Section:  05.04

Topic:  General functions of muscle tissue

Learning Objective:  05.18 Summarize the five functions of the muscular system and give an example or explanation of each.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

96) All of the following statements about the effect of aging on the muscular system are true except which one?

1. A) Muscle mass decreases with age.
2. B) Fat is deposited in muscle tissue and muscle fibers shrink.
3. C) Some muscle is replaced by fibrous tissue.
4. D) Our diet and lifestyle solely determine the rate and extent of muscle loss.

 

Answer:  D

Explanation:  The rate and extent of muscle loss is determined by genetics.

Section:  05.05

Topic:  Effects of aging and exercise on the muscular system

Learning Objective:  05.19 Summarize the effects of aging on the muscular system.

Bloom’s:  2. Understand

CAAHEP:  I.C.10. Compare body structure and function of the human body across the life span

97) Electromyography is a diagnostic test used to assess how the muscle responds to what?

1. A) Heat
2. B) Electric stimuli
3. C) Pressure
4. D) Cold

 

Answer:  B

Explanation:  Electromyography is a diagnostic test used to assess the health of the muscle by testing how the muscle responds to electric stimuli.

Section:  05.06

Topic:  Clinical applications of the muscular system

Learning Objective:  05.20 Describe a common diagnostic test used to diagnose disorders of the muscular system

Bloom’s:  2. Understand

CAAHEP:  I.C.5. Describe the normal function of each body system

 

98) What muscular disorder is characterized by a part of the viscera protruding through the muscular wall?

1. A) Hernia
2. B) Cramp
3. C) Muscular dystrophy
4. D) Myasthenia gravis

 

Answer:  A

Explanation:  A hernia occurs when any part of the viscera protrudes through the muscle of the abdominal wall.

Section:  05.07

Topic:  Clinical applications of the muscular system

Learning Objective:  05.21 Describe muscle disorders and relate abnormal function to pathology.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

99) Which disorder describes a group of genetic disorders that result in progressive weakening, degeneration, and replacement of muscle tissue with fibrous scar tissue?

1. A) Hernia
2. B) Cramp
3. C) Muscular dystrophy
4. D) Myasthenia gravis

 

Answer:  C

Explanation:  Muscular dystrophy is a group of genetic disorders that result in progressive weakening, degeneration, and replacement of muscle tissue with fibrous scar tissue.

Section:  05.07

Topic:  Clinical applications of the muscular system

Learning Objective:  05.21 Describe muscle disorders and relate abnormal function to pathology.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

100) Which muscular disorder is characterized by painful muscle spasms?

1. A) Hernia
2. B) Cramp
3. C) Muscular dystrophy
4. D) Myasthenia gravis

 

Answer:  B

Explanation:  A cramp is a painful muscle spasm.

Section:  05.07

Topic:  Clinical applications of the muscular system

Learning Objective:  05.21 Describe muscle disorders and relate abnormal function to pathology.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

101) Which muscular disorder is characterized as an autoimmune disorder where antibodies attack the acetylcholine receptors in the neuromuscular junction?

1. A) Hernia
2. B) Cramp
3. C) Muscular dystrophy
4. D) Myasthenia gravis

 

Answer:  D

Explanation:  The immune system produces antibodies that normally fight foreign pathogens, but in people with myasthenia gravis, the antibodies attack the acetylcholine receptors in the neuromuscular junctions. This leaves the muscle with fewer receptors, so it less sensitive to acetylcholine. Muscle weakness results because the muscle cannot fully respond to the nerve impulses.

Section:  05.07

Topic:  Clinical applications of the muscular system

Learning Objective:  05.21 Describe muscle disorders and relate abnormal function to pathology.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

 

102) Which statement accurately compares sprains and strains?

1. A) A sprain is a tear in the muscle or tendon while a strain is a tear in the ligament.
2. B) A sprain is a tear in the ligament while a strain is a tear in muscle tissue or tendons.
3. C) A sprain is a major strain and both are tears in the ligament.
4. D) A strain is a minor sprain and both are tears in the tendon or muscle tissue.

 

Answer:  B

Explanation:  A sprain is a tear in the ligament while a strain is a tear in muscle tissue or tendons.

Section:  05.07

Topic:  Clinical applications of the muscular system

Learning Objective:  05.21 Describe muscle disorders and relate abnormal function to pathology.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

103) Which muscular disorder does not result from an injury or trauma?

1. A) Compartment syndrome
2. B) Sprain
3. C) Myasthenia gravis

 

Answer:  C

Explanation:  Myasthenia gravis is not caused by injury or trauma, it is a muscle condition caused by an autoimmune disease that affects muscle contractions.

Section:  05.07

Topic:  Clinical applications of the muscular system

Learning Objective:  05.21 Describe muscle disorders and relate abnormal function to pathology.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

104) Which statement describes muscle atrophy?

1. A) Painful muscle spasms
2. B) A tear in the muscle tissue
3. C) Inflammation of the muscle tissue
4. D) Wasting away of muscle tissue

 

Answer:  D

Explanation:  Muscle atrophy is described as the wasting away of muscle tissue.

Section:  05.07

Topic:  Clinical applications of the muscular system

Learning Objective:  05.21 Describe muscle disorders and relate abnormal function to pathology.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

 

 

 

105) Which condition is characterized by pain in the lower front leg along the tibia that commonly occurs after the level of physical activity changes?

1. A) Sprain
2. B) Myalgia
3. C) Strain
4. D) Shin splints

 

Answer:  D

Explanation:  Shin splints are characterized by pain in the lower front leg along the tibia that commonly occurs after the level of physical activity changes.

Section:  05.07

Topic:  Clinical applications of the muscular system

Learning Objective:  05.21 Describe muscle disorders and relate abnormal function to pathology.

Bloom’s:  1. Remember

CAAHEP:  I.C.5. Describe the normal function of each body system

106) What is the effect of motor unit recruitment?

1. A) Involvement of multiple muscles for one movement
2. B) A single nerve cell and all the muscle cells it stimulates
3. C) A single nerve cell
4. D) Hundreds of nerve endings stimulating a group of muscles

 

Answer:  A

Explanation:  A motor unit is a single nerve cell and all of the muscle cells it stimulates.

Section:  05.04

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.11 Define a motor unit and explain the effect of recruitment.

Bloom’s:  2. Understand

CAAHEP:  I.C.1. Describe structural organization of the human body

 

107) Which type of contraction is involved in pushing against a door that will not open?

1. A) Isotonic contraction
2. B) Isometric contraction
3. C) Hypertonic contraction
4. D) Hypotonic contraction

 

Answer:  C

Explanation:  In isotonic contractions, the tension in the muscles remains constant, and motion results. In isometric contractions, the muscles would have bulged with the increased tension, but movement would not result.

Section:  05.04

Topic:  Physiology of skeletal muscle contraction

Learning Objective:  05.12 Compare and contrast isotonic and isometric contractions.

Bloom’s:  3. Apply

CAAHEP:  I.C.5. Describe the normal function of each body system

 

108) Which of the following is atrophy?

1. A) Muscle mass decreases with age.
2. B) Fat is deposited in muscle tissue and muscle fibers shrink.
3. C) Some muscle is replaced by fibrous tissue.
4. D) Our diet and lifestyle solely determine the rate and extent of muscle loss.

 

Answer:  A

Explanation:  The rate and extent of muscle loss is determined by genetics.

Section:  05.05

Topic:  Effects of aging and exercise on the muscular system

Learning Objective:  05.19 Summarize the effects of aging on the muscular system.

Bloom’s:  2. Understand

CAAHEP:  I.C.10. Compare body structure and function of the human body across the life span

109) What is a diagnostic test used to assess how the muscle responds?

1. A) EKG
2. B) EMG
3. C) ECG
4. D) EEG

 

Answer:  B

Explanation:  Electromyography is a diagnostic test used to assess the health of the muscle by testing how the muscle responds to electric stimuli.

Section:  05.06

Topic:  Clinical applications of the muscular system

Learning Objective:  05.20 Describe a common diagnostic test used to diagnose disorders of the muscular system

Bloom’s:  2. Understand

CAAHEP:  I.C.5. Describe the normal function of each body system