microorganisms removed from incoming air by sticky mucus are most likely to be destroyed by b....
TRANSCRIPT
Microorganisms removed from incoming air by sticky mucus are most likely to be destroyed by
B. Toxins in the mucus
D. Lack of oxygen
C. Action of cilia
A. Digestive action of gastric juice
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Who Wants to Be a Millionaire – Respiratory SystemBy Tara Hutchcroft
Microorganisms removed from incoming air by sticky mucus are most likely to be destroyed by
A. Digestive action of gastric juice
B. Toxins in the mucus
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Microorganisms removed from incoming air by sticky mucus are most likely to be destroyed by A. Digestive action of gastric juice
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Microorganisms removed from incoming air by sticky mucus are most likely to be destroyed by
A. Digestive action of gastric juice
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Which of the following bones does not possess sinuses?
B. Frontal
D. SphenoidC. Zygomatic
A. Maxillary
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Which of the following bones does not possess sinuses
C. Zygomatic D. Sphenoid
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C. Zygomatic
Which of the following bones does not possess sinuses
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C. Zygomatic
Which of the following bones does not possess sinuses
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Which of these laryngeal cartilages occurs singly rather than in pairs?
D. Cricoid
B. Corniculate
C. Cuneiform
A. Arytenoid
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Which of these laryngeal cartilages occurs singly rather than in pairs?
D. Cricoid
B. Corniculate
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Which of these laryngeal cartilages occurs singly rather than in pairs?
D. Cricoid
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Which of these laryngeal cartilages occurs singly rather than in pairs?
D. Cricoid
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The pitch of a vocal sound is controlled by changing the …
B. Tension on the vocal cordsD. Shape of laryngeal cartilages
C. Size of laryngeal cartilages
A. Force of the air
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The pitch of a vocal sound is controlled by changing the …
C. Size of laryngeal cartilages
B. Tension on the vocal cords
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The pitch of a vocal sound is controlled by changing the …
B. B. Tension on the vocal cords
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The pitch of a vocal sound is controlled by changing the …
B. Tension on the vocal cords
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The walls of the alveoli are composed of…
B. Simple squamous epitheliumD. Loose connective tissue
C. Stratified squamous epithelium
A. Ciliated columnar epithelium
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The walls of the alveoli are composed of…
A. Ciliated columnar epithelium
B. Simple squamous epithelium
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The walls of the alveoli are composed of…
B. Simple squamous epithelium
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The walls of the alveoli are composed of…
B. Simple squamous epithelium
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The force that causes air to move into the lungs during inspiration is supplied by…..
B. External intercostal musclesD. Atmospheric pressure
C. Abdominal muscles
A. The diaphragm
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The force that causes air to move into the lungs during inspiration is supplied by…..
A. The diaphragm
D. Atmospheric pressure
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The force that causes air to move into the lungs during inspiration is supplied by…..
D. Atmospheric pressure
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The force that causes air to move into the lungs during inspiration is supplied by…..
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D. Atmospheric pressure
The force responsible for normal expiration is supplied by the….
B. External intercostal musclesD. Contraction of smooth muscles in air passages
C. Elastic recoil of tissues and surface tension
A. Diaphragm
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The force responsible for normal expiration is supplied by the….
A. Diaphragm
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C. Elastic recoil of tissues and surface tension
The force responsible for normal expiration is supplied by the….
C. Elastic recoil of tissues and surface tension
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The force responsible for normal expiration is supplied by the….
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C. Elastic recoil of tissues and surface tension
The amount of air that enters or leaves the lungs during a normal respiratory cycle is the…
B. Residual volume
D. Total lung capacity
C. Vital capacity
A. Tidal volume
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The amount of air that enters or leaves the lungs during a normal respiratory cycle is the…
A. Tidal Volume B. Residual volume
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The amount of air that enters or leaves the lungs during a normal respiratory cycle is the…A. Tidal Volume
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The amount of air that enters or leaves the lungs during a normal respiratory cycle is the…
A. Tidal Volume
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The chemoreceptors in the carotid and aortic bodies are most sensitive to changes in blood…
B. Hydrogen ion concentration
D. Bicarbonate ion concentration
C. Oxygen concentration
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A. Carbon dioxide concentration
The chemoreceptors in the carotid and aortic bodies are most sensitive to changes in blood…
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A. Carbon dioxide concentrationC. Oxygen
concentration
The chemoreceptors in the carotid and aortic bodies are most sensitive to changes in blood…
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C. Oxygen concentration
The chemoreceptors in the carotid and aortic bodies are most sensitive to changes in blood…
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C. Oxygen concentration
The portion of the respiratory center that is responsible for establishing the basic pattern of breathing is the…..
B. Rhythmicity area
D. Inspiratory areaC. Pneumotaxic area
A.Apneustic area
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The portion of the respiratory center that is responsible for establishing the basic pattern of breathing is the…..
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B. Rhythmicity area
D. Inspiratory area
The portion of the respiratory center that is responsible for establishing the basic pattern of breathing is the…..
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B. Rhythmicity area
The portion of the respiratory center that is responsible for establishing the basic pattern of breathing is the…..
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B. Rhythmicity area
The effects of carbon dioxide and hydrogen ions on the respiratory center are similar because….
B. Both are positively charged
D. Carbon dioxide combines with water to form carbonic acid
C. Hydrogen ions combine with water to form carbon dioxide
A. Both cause a reduction in the oxygen conc.
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The effects of carbon dioxide and hydrogen ions on the respiratory center are similar because….
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D. Carbon dioxide combines with water to form carbonic acid
A. Both cause a reduction in the oxygen conc.
The effects of carbon dioxide and hydrogen ions on the respiratory center are similar because….
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D. Carbon dioxide combines with water to form carbonic acid
The effects of carbon dioxide and hydrogen ions on the respiratory center are similar because….
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D. Carbon dioxide combines with water to form carbonic acid
The vocal cords are located within the…
B. Larynx
D. Oral cavityC. Trachea
A. Pharynx
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The vocal cords are located within the
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B. Larynx
C. Trachea
The vocal cords are located within the
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B. Larynx
The vocal cords are located within the
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B. Larynx
The respiratory membrane consists of…
B. Single thickness of epithelial cells and basement membraneD. Two thicknesses of epithelial cells and basement membranes
C. Two thicknesses of epithelial cells
A. Single thickness of epithelial cells
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The respiratory membrane consists of…
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D. Two thicknesses of epithelial cells and basement membranes
A. Single thickness of epithelial cells
The respiratory membrane consists of…
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D. Two thicknesses of epithelial cells and basement membranes
The respiratory membrane consists of…
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D. Two thicknesses of epithelial cells and basement membranes
The amount of oxygen released from oxyhemoglobin increases when….
B. Carbon dioxide concentration increasesD. Blood becomes more alkaline
C. Temperature decreases
A. Carbon dioxide concentration decreases
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The amount of oxygen released from oxyhemoglobin increases when….
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B. Carbon dioxide concentration increases
C. Temperature decreases
The amount of oxygen released from oxyhemoglobin increases when….
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B. Carbon dioxide concentration increases
The amount of oxygen released from oxyhemoglobin increases when….
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B. Carbon dioxide concentration increases
The enzyme carbonic anhydrase causes…
B. Carbon dioxide to react with bicarbonate ionsD. Water to react with hydrogen ions
C. Water to react with bicarbonate ions
A. Carbon dioxide to react with water
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The enzyme carbonic anhydrase causes…
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A. Carbon dioxide to react with water D. Water to react
with hydrogen ions
The enzyme carbonic anhydrase causes…
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A. Carbon dioxide to react with water
The enzyme carbonic anhydrase causes…
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A. Carbon dioxide to react with water
Of the respiratory air volumes listed, which one has the largest volume?
B. Inspiratory reserve
D. Tidal volumeC. Vital capacity
A. Expiratory reserve
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Of the respiratory air volumes listed, which one has the largest volume?
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C. Vital capacity
B. Inspiratory reserve
Of the respiratory air volumes listed, which one has the largest volume?
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C. Vital capacity
Of the respiratory air volumes listed, which one has the largest volume?
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C. Vital capacity
Which of the following is (are) a function of the mucous-covered nasal passages?
B. Moistening inspired air
D. All of theseC. Entrapping small particles
A. Warming inspired air
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Which of the following is (are) a function of the mucous-covered nasal passages?
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D. All of theseC. Entrapping small particles
Which of the following is (are) a function of the mucous-covered nasal passages?
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D. All of these
Which of the following is (are) a function of the mucous-covered nasal passages?
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D. All of these
The intensity (volume) of a vocal sound is a result of the….
B. Tension on the vocal cords size of the laryngeal cartilageD. Shape of the laryngeal cartilage
C. Size of the laryngeal cartilage
A. Force of air passing over the vocal cords
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The intensity (volume) of a vocal sound is a result of the….
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A. Force of air passing over the vocal cords
B. Tension on the vocal cords size of the laryngeal cartilage
The intensity (volume) of a vocal sound is a result of the….
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A. Force of air passing over the vocal cords
The intensity (volume) of a vocal sound is a result of the….
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A. Force of air passing over the vocal cords
If a flashlight is placed just below the eyebrow in a darkened room, it may be possible to illuminate the …
B. Maxillary sinus
D. Ethmoidal sinusC. Sphenoidal sinus
A. Frontal sinus
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If a flashlight is placed just below the eyebrow in a darkened room, it may be possible to illuminate the …
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A. Frontal sinus
C. Sphenoidal sinus
If a flashlight is placed just below the eyebrow in a darkened room, it may be possible to illuminate the …
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A. Frontal sinus
If a flashlight is placed just below the eyebrow in a darkened room, it may be possible to illuminate the …
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A. Frontal sinus
The trachea can be described as….
B. Including about 20 C-shaped cartilage ringsD. All of theseC. A passageway
for air
A. Lined with a ciliated mucous membrane
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The trachea can be described as….
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C. A passageway for air
D. All of these
The trachea can be described as….
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D. All of these
The trachea can be described as….
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D. All of these
Changes in the structure of the respiratory tube as the branches become finer include the…
B. Muscular layer becomes less prominentD. Epithelial lining
changes from pseudostratified ciliated columnar to cuboidal and simple squamous
C. Elastic fibers decrease in quantity
A. Amount of cartilage increases
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Changes in the structure of the respiratory tube as the branches become finer include the…
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B. Muscular layer becomes less prominentD. Epithelial lining
changes from pseudostratified ciliated columnar to cuboidal and simple squamous
Changes in the structure of the respiratory tube as the branches become finer include the…
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D. Epithelial lining changes from pseudostratified ciliated columnar to cuboidal and simple squamous
Changes in the structure of the respiratory tube as the branches become finer include the…
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D. Epithelial lining changes from pseudostratified ciliated columnar to cuboidal and simple squamous
The right lung is composed of _____lobes; the left lung is composed of ___________ lobes.…
B. Superior and inferior; superior, middle, and inferiorD. Superior, middle, and inferior; anterior and posterior
C. Anterior, posterior, and lateral; superior and inferior
A. superior, middle, and inferior; superior and inferior
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The right lung is composed of _____lobes; the left lung is composed of ___________ lobes.…
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A. superior, middle, and inferior; superior and inferior
D. Superior, middle, and inferior; anterior and posterior
The right lung is composed of _____lobes; the left lung is composed of ___________ lobes.…
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A. superior, middle, and inferior; superior and inferior
The right lung is composed of _____lobes; the left lung is composed of ___________ lobes.…
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A. superior, middle, and inferior; superior and inferior
The first event in expiration is…
B. Elastic tissues of the lungs, thoracic cage, and abdominal organs recoilD. The diaphragm and external respiratory muscles relax
C. Air is squeezed out of the lungs
A. Inter-alveolar pressure increases
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The first event in expiration is…
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C. Air is squeezed out of the lungs
A. Inter-alveolar pressure increases
The first event in expiration is…
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A. Inter-alveolar pressure increases
The first event in expiration is…
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A. Inter-alveolar pressure increases
Most carbon dioxide is transported in the form of…
B. Bicarbonate ions
D. Carbonic acidC. Carbaminohemoglobin
A. Carbonic anhydrase
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Most carbon dioxide is transported in the form of…
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B. Bicarbonate ions
C. Carbaminohemoglobin
Most carbon dioxide is transported in the form of…
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B. Bicarbonate ions
Most carbon dioxide is transported in the form of…
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B. Bicarbonate ions
Oxyhemoglobin is formed when oxygen molecules bind to the ________portion of a hemoglobin molecule.
B. Iron
D. HydrogenC. Nitrogen
A. Amino
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Oxyhemoglobin is formed when oxygen molecules bind to the ________portion of a hemoglobin molecule.
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A. Amino B. Iron
Oxyhemoglobin is formed when oxygen molecules bind to the ________portion of a hemoglobin molecule.
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B. Iron
Oxyhemoglobin is formed when oxygen molecules bind to the ________portion of a hemoglobin molecule.
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B. Iron
The anaerobic phase of cellular respiration takes place in the ____________of cells.
B. Lysosome
D. CytoplasmC. Mitochondria
A. Endoplasmic reticulum
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The anaerobic phase of cellular respiration takes place in the ____________of cells.
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D. Cytoplasm
A. Endoplasmic reticulum
The anaerobic phase of cellular respiration takes place in the ____________of cells.
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D. Cytoplasm
The anaerobic phase of cellular respiration takes place in the ____________of cells.
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D. Cytoplasm
The aerobic phase of cellular respiration takes place in the _____ of cells.
B. Lysosome
D. CytoplasmC. Mitochondria
A. Endoplasmic reticulum
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The aerobic phase of cellular respiration takes place in the _____ of cells.
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D. CytoplasmC. Mitochondria
The aerobic phase of cellular respiration takes place in the _____ of cells.
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C. Mitochondria
The aerobic phase of cellular respiration takes place in the _____ of cells.
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C. Mitochondria
The structures responsible for increasing the surface area of the nasal mucous membrane are the…
B. Meatuses
D. SeptaC. Nasal conchae
A. Sinuses
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The structures responsible for increasing the surface area of the nasal mucous membrane are the…
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C. Nasal conchae
A. Sinuses
The structures responsible for increasing the surface area of the nasal mucous membrane are the…
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C. Nasal conchae
The structures responsible for increasing the surface area of the nasal mucous membrane are the…
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C. Nasal conchae
3500cc; max volume of air that can be inhaled following exhalation of the tidal volume….
B. Inspiratory capacity
D. Total lung capacity
C. Vital Capacity
A. Inspiratory reserve volume
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3500cc; max volume of air that can be inhaled following exhalation of the tidal volume….
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B. Inspiratory capacity
D. Total lung capacity
3500cc; max volume of air that can be inhaled following exhalation of the tidal volume….
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B. Inspiratory capacity
3500cc; max volume of air that can be inhaled following exhalation of the tidal volume….
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B. Inspiratory capacity
5800; total volume of air that the lungs can hold…
B. Vital capacity
D. Residual volume
C. Total lung capacity
A. Tidal volume
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5800; total volume of air that the lungs can hold…
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A. Tidal volume
C. Total lung capacity
5800; total volume of air that the lungs can hold…
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C. Total lung capacity
5800; total volume of air that the lungs can hold…
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C. Total lung capacity
1200 cc; volume that remains in the lungs at all items…..
B. Vital capacity
D. Total lung capacity
C. Tidal volume
A. Residual volume
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1200 cc; volume that remains in the lungs at all items…..
…
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A. Residual volume
B. Vital capacity
1200 cc; volume that remains in the lungs at all items…..
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A. Residual volume
1200 cc; volume that remains in the lungs at all items…..
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A. Residual volume
2300 cc; volume of air that remains in lungs following expiration of the tidal volume…
B. Vital capacity
D. Residual volume
C. Total lung capacity
A. Functional residual capacity
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2300 cc; volume of air that remains in lungs following expiration of the tidal volume…
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A. Functional residual capacity
B. Vital capacity
2300 cc; volume of air that remains in lungs following expiration of the tidal volume…
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A. Functional residual capacity
2300 cc; volume of air that remains in lungs following expiration of the tidal volume…
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A. Functional residual capacity
3000 cc; volume that can be inhaled during forced breathing in addition to the tidal volume….
B. Vital capacity
D. Inspiratory reserve volume
C. Inspiratory capacity
A. Tidal volume
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3000 cc; volume that can be inhaled during forced breathing in addition to the tidal volume….
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D. Inspiratory reserve volume
B. Vital capacity
3000 cc; volume that can be inhaled during forced breathing in addition to the tidal volume….
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D. Inspiratory reserve volume
3000 cc; volume that can be inhaled during forced breathing in addition to the tidal volume….
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D. Inspiratory reserve volume
500 cc; normal breathing
B. Tidal volume
D. Total lung capacity
C. Residual volume
A. Vital capacity
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500 cc; normal breathing
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B. Tidal volumeA. Vital capacity
500 cc; normal breathing
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B. Tidal volume
500 cc; normal breathing
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B. Tidal volume
1100 cc; volume that can be exhaled during forced breathing in addition to the tidal volume…
B. Vital capacity
D. Expiratory reserve volume
C. Inspiratory reserve volume
A. Inspiratory capacity
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1100 cc; volume that can be exhaled during forced breathing in addition to the tidal volume…
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C. Inspiratory reserve volume
D. Expiratory reserve volume
1100 cc; volume that can be exhaled during forced breathing in addition to the tidal volume…
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D. Expiratory reserve volume
1100 cc; volume that can be exhaled during forced breathing in addition to the tidal volume…
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D. Expiratory reserve volume
4600 cc; maximum volume of air that can be exhaled after taking the deepest breath possible…
B. Total lung capacity
D. Tidal volumeC. Inspiratory capacity
A. Vital capacity
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4600 cc; maximum volume of air that can be exhaled after taking the deepest breath possible…
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A. Vital capacity
C. Inspiratory capacity
4600 cc; maximum volume of air that can be exhaled after taking the deepest breath possible…
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A. Vital capacity
4600 cc; maximum volume of air that can be exhaled after taking the deepest breath possible…
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A. Vital capacity
Increases inspiratory and expiratory movements during forceful breathing.
B. Ventral respiratory group
D. Carbonic anhydrase
C. Pneumotaxic area
A. Dorsal respiratory group
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Increases inspiratory and expiratory movements during forceful breathing.
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B. Ventral respiratory group
A. Dorsal respiratory group
Increases inspiratory and expiratory movements during forceful breathing.
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B. Ventral respiratory group
Increases inspiratory and expiratory movements during forceful breathing.
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B. Ventral respiratory group
Regulates the rate of breathing.
B. Carbonic anhydrase
D. Dorsal respiratory group
C. Hyperventilation
A. Pneumotaxic area
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Regulates the rate of breathing.
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A. Pneumotaxic area
D. Dorsal respiratory group
Regulates the rate of breathing.
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A. Pneumotaxic area
Regulates the rate of breathing.
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A. Pneumotaxic area
Emits bursts of impulses that signal the diaphragm and other inspiratory muscles to contract.
B. Ventral respiratory group
D. HyperventilationC. Dorsal respiratory group
A. Carbonic anhydrase
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Emits bursts of impulses that signal the diaphragm and other inspiratory muscles to contract.
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C. Dorsal respiratory group
D. Hyperventilation
Emits bursts of impulses that signal the diaphragm and other inspiratory muscles to contract.
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C. Dorsal respiratory group
Emits bursts of impulses that signal the diaphragm and other inspiratory muscles to contract.
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C. Dorsal respiratory group
The _______________is the opening between the vocal cords.
B. Glottis
D. LarynxC. Pharynx
A. Epiglottis
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The _______________is the opening between the vocal cords.
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B. GlottisA. Epiglottis
The _______________is the opening between the vocal cords.
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B. Glottis
The _______________is the opening between the vocal cords.
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B. Glottis
The layer of serous membrane that is firmly attached to the surface of a lung is called _________________________.
B. Visceral peritoneum
D. Parietal peritoneum
C. Parietal pleura
A. Visceral pleura
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The layer of serous membrane that is firmly attached to the surface of a lung is called _________________________.
The Classroom VersionTemplate Created by James CochranLouisiana Tech University
A. Visceral pleura B. Visceral peritoneum
The layer of serous membrane that is firmly attached to the surface of a lung is called _________________________.
The Classroom VersionTemplate Created by James CochranLouisiana Tech University
A. Visceral pleura
The layer of serous membrane that is firmly attached to the surface of a lung is called _________________________.
The Classroom VersionTemplate Created by James CochranLouisiana Tech University
A. Visceral pleura
Trachea Primary bronchi Secondary bronchi (lobar) tertiary bronchi (segmental) _______________ terminal bronchioles respiratory bronchioles _________ Alveolar sacs Alveoli
B. Intralobular bronchioles; alveolar ductsD. Quaternary
bronchiles; glottisC. Quaternary bronchioles; alveolar ducts
A. Alveolar ducts; intralobular bronchiles
The Classroom VersionTemplate Created by James CochranLouisiana Tech University
Trachea Primary bronchi Secondary bronchi (lobar) tertiary bronchi (segmental) _______________ terminal bronchioles respiratory bronchioles _________ Alveolar sacs Alveoli
The Classroom VersionTemplate Created by James CochranLouisiana Tech University
B. Intralobular bronchioles; alveolar ducts
A. Alveolar ducts; intralobular bronchiles
The Classroom VersionTemplate Created by James CochranLouisiana Tech University
B. Intralobular bronchioles; alveolar ducts
Trachea Primary bronchi Secondary bronchi (lobar) tertiary bronchi (segmental) _______________ terminal bronchioles respiratory bronchioles _________ Alveolar sacs Alveoli
The Classroom VersionTemplate Created by James CochranLouisiana Tech University
B. Intralobular bronchioles; alveolar ducts
Trachea Primary bronchi Secondary bronchi (lobar) tertiary bronchi (segmental) _______________ terminal bronchioles respiratory bronchioles _________ Alveolar sacs Alveoli