A&P II CH. 22 Full Review
65. Air consists of about 78.6% nitrogen, 20.9% oxygen, 0.04% carbon dioxide, and 0.5% water. At sea level, (760 mmHg) what is the PCO2? A. 597 mm Hg B. 159 mm Hg C. 0.3 mm Hg D. 3.7 mm Hg
0.3 mm Hg
28. Which of the following enzymes in an RBC breaks H2CO3 down to water and carbon dioxide? A. Hemoglobinase B. Carboxyhemoglobinase C. Carbonic anhydrase D. Bisphosphoglycerase E. Carbaminoreductase
Carbonic anhydrase
60. The pH of the cerebrospinal fluid is monitored by which of these brainstem centers? A. PRG B. Hypothalamic osmoreceptors C. Medullary baroreceptors D. Central chemoreceptors
Central chemoreceptors
32. Which of the following is a lung disease marked by a reduced number of cilia, reduced motility of the remaining cilia, goblet cell hypertrophy and hypersecretion, and thick sputum? A. Asthma B. Oat-cell carcinoma C. Atelectasis D. Chronic bronchitis E. Emphysema
Chronic bronchitis
58. Which of the following issues output to the VRG to adjust the respiratory rhythm? A. DRG B. PRG C. NRG D. SRG
DRG
66. Which law states that the total atmospheric pressure is a sum of the contributions of the individual gases? A. Henry's B. Charles's C. Boyle's D. Dalton's
Dalton's
14. Which law states that the total pressure of a gas mixture is equal to the sum of the partial pressures of its individual gases? A. Boyle's B. Valsalva's C. Dalton's D. Charles's E. Henry's
daltion's
40. Nitrogen bubbles can form in the blood and other tissues when a scuba diver ascends too rapidly, producing a syndrome called _________. A. decompression sickness B. hyperbaric disease C. cerebral embolism D. pulmonary barotrauma E. pulmonary edema
decompression sickness
5. What are the most numerous cells in the lungs? A. Mucosal cells B. Type I alveolar cells C. Type II alveolar cells D. Dust cells E. Vibrissal cells
dust cells
12. Crude sounds are formed into intelligible speech by all of the following except the _________. A. pharynx B. epiglottis C. oral cavity D. tongue E. lips
epiglottis
24. Which of the following has no effect on oxyhemoglobin dissociation? A. Epinephrine B. Fever C. Thyroid hormone D. Low pH E. Erythrocyte count
erythrocyte count
41. The vagus and glossopharyngeal nerves carry afferent signals from peripheral chemoreceptors to a chemosensitive area in the ___________. A. pontine respiratory group B. dorsal respiratory group C. ventral respiratory group D. medulla oblongata E. pons
medulla oblongata
55. Erythrocytes do not carry out aerobic respiration; thus, they do not consume any of the oxygen they are transporting.
true
48. The maximum amount of air the lungs can contain is known as inspiratory capacity.
False
49. Respiratory arrest is an irreversible condition.
False
51. Breathing is controlled solely by the medulla oblongata and pons. FALSE
False
52. The rate of oxygen diffusion is affected by the pressure gradient of carbon dioxide.
False
54. According to the Bohr effect, a low level of oxyhemoglobin enables the blood to transport more CO2.
False
56. Hemoglobin releases the same amount of oxygen to all the tissues regardless of variations in their metabolic rate.
False
29. In one passage through a bed of systemic blood capillaries, the blood gives up about what percentage of its oxygen? A. 5% to 10% B. 10% to 15% C. 20% to 25% D. 30% to 40% E. 70% to 85%
20%-25%
26. Each hemoglobin molecule can transport up to __________ oxygen molecules. A. 6 B. 2 C. 3 D. 4 E. 5
4
46. Your breathing rate is 12 breaths/minute; your tidal volume is 500 mL; your vital capacity is 4700 mL; and your dead air space is 150 mL. Your alveolar ventilation rate is __________ mL/min. A. 2,400 B. 3,600 C. 4,200 D. 5,600 E. 6,400
4,200
47. Your breathing rate is 14 breaths/minute; spirometric measurements reveal your tidal volume is 500 mL; your inspiratory reserve volume is 3000 mL; and your expiratory reserve volume is 1,200 mL. Your vital capacity is __________ mL. A. 2,400 B. 3,000 C. 3,800 D. 4,700 E. 5,800
4,700
27. Normally, the systemic arterial blood has a Po2 of ___________ mm Hg, a Pco2 of ___________ mm Hg, and a pH of ___________. A. 40; 95; 7.4 B. 95; 40; 7.4 C. 7.4; 40; 95 D. 95; 7.4; 40 E. 40; 7.4; 95
95; 40; 7.4
38. Which of these is most likely to result from contact between contaminated fingers and the nasal mucosa? A. Apnea B. Adult respiratory distress syndrome C. Acute bronchitis D. Acute rhinitis E. Asthma
Acute rhinitis
36. Which malignancy originates in the lamina propria of the bronchi? A. Squamous-cell carcinoma B. Oat-cell carcinoma C. Adenocarcinoma D. Pulmonary edema E. Cor pulmonale
Adenocarcinoma
64. The anatomical dead space is greatest in which of the following situations? A. After eating a large meal B. After swerving to narrowly avoid an accident while driving C. After waking up from a long nap D. After watching TV for an hour
After swerving to narrowly avoid an accident while driving
67. How is alveolar air different than inspired air? A. Alveolar air has a higher PN2 than inspired air. B. Alveolar air has a lower PCO2 than inspired air. C. Alveolar air has a higher PO2 than inspired air. D. Alveolar air has a higher PH2O than inhaled air.
Alveolar air has a higher PH2O than inhaled air
22. Which of the following would slow down gas exchange between the blood and alveolar air? A. An increase in membrane thickness B. An increase in alveolar surface area C. An increase in respiratory rate D. A decrease in membrane thickness E. A decrease in nitrogen solubility
An increase in membrane thickness
63. Upon inspiration, what is the name of the air in the conducting division that is not available for gas exchange? A. Alveolar dead space B. Tracheal dead space C. Anatomical dead space D. Conducting dead space
Anatomical dead space
21. During exercise, which of the following directly increases respiratory rate? A. Increased H+ level in the blood B. The Bohr effect C. Reduced blood pH D. Reduced oxyhemoglobin E. Anticipation of the needs of exercising muscle
Anticipation of the needs of exercising muscle
1. Which of the following is not a function of the respiratory system? A. Control of pH B. Promotes the flow of lymph and venous blood C. Helps regulate blood pressure D. Assists in the synthesis of vasodilators E. Aids in defecation
Assists in the synthesis of vasodilators
34. Which of the following is a lung disease marked by abnormally few but large alveoli? A. Cor pulmonale B. Pulmonary hemosiderosis C. Emphysema D. Atelectasis E. Collapsed lung
Emphysema
45. Blood banks dispose of blood that has low levels of bisphosphoglycerate. What would be the probable reason for doing so? A. A low BPG level causes acidosis of blood. B. Erythrocytes low in BPG do not unload CO2 very well. C. Erythrocytes low in BPG do not unload O2 very well. D. Erythrocytes low in BPG do not load O2 very well. E. A decline in BPG level is accompanied by a decline in hemoglobin level.
Erythrocytes low in BPG do not unload O2 very well
17. How is the vital capacity calculated? A. Inspiratory reserve volume + expiratory volume B. Inspiratory reserve volume + tidal volume C. Expiratory reserve volume + tidal volume D. Expiratory reserve volume + tidal volume + inspiratory reserve volume E. Respiratory volume + tidal volume
Expiratory reserve volume + tidal volume + inspiratory reserve volume
70. Hypocapnia will lead to which of the following conditions? A. Hypoventilation due to acidosis B. Hypoventilation due to alkalosis C. Hyperventilation due to acidosis D. Hyperventilation due to alkalosis
Hypoventilation due to alkalosis
30. Which of the following is the term for a deficiency of oxygen or the inability to utilize oxygen in a tissue? A. Apoxia B. Hypoxia C. Anoxia D. Cyanosis E. Eupnea
Hypoxia
31. Congestive heart failure results in which of the following? A. Hypoxemic hypoxia B. Ischemic hypoxia C. Anemic hypoxia D. Histotoxic hypoxia E. Idiopathic hypoxia
Ischemic hypoxia
18. Deep, rapid breathing often seen in terminal diabetes mellitus is known as what? A. Tachypnea B. Dyspnea C. Orthopnea D. Hyperpnea E. Kussmaul respiration
Kussmaul respiration
62. If one inspires through their nose, which of the following answers has the correct order of structures the air would move through? A. Nares Vestibule Nasal Cavity Nasopharynx Oropharynx Laryngopharynx Larynx Trachea Primary Bronchus Secondary Bronchus Tertiary Bronchus Bronchiole Respiratory Bronchiole Terminal Bronchiole Alveolar Duct Alveolar Sac Alveolus B. Nares Nasal Cavity Vestibule Nasopharynx Oropharynx Laryngopharynx Larynx Trachea Primary Bronchus Secondary Bronchus Tertiary Bronchus Bronchiole Terminal Bronchiole Respiratory Bronchiole Alveolar Duct Alveolar Sac Alveolus C. Nares Vestibule Nasal Cavity Nasopharynx Oropharynx Laryngopharynx Larynx Trachea Bronchiole Respiratory Bronchiole Terminal Bronchiole Primary Bronchus Secondary Bronchus Tertiary Bronchus Alveolar Duct Alveolar Sac Alveolus D. Nares Nasal Cavity Vestibule Nasopharynx Oropharynx Laryngopharynx Larynx Trachea Primary Bronchus Secondary Bronchus Tertiary Bronchus Bronchiole Respiratory Bronchiole Terminal Bronchiole Alveolar Duct Alveolar Sac Alveolus
Nares, Vestibule, Nasal Cavity, Nasopharynx, Oropharynx, Laryngopharynx, Larynx, Trachea, Primary bronchus, Secondary bronchus, Tertiary bronchus, bronchiole, Respiratory Bronchiole, Terminal Bronchiole, Alveolar Duct, Alveolar Sac, ALveolus
37. Polio can sometimes damage the brainstem respiratory centers and result in which condition? A. A Bohr effect B. Adult respiratory distress syndrome C. A pneumothorax D. Atelectasis E. Ondine's curse
Ondine's curse
39. Scuba divers breathe a nitrogen-oxygen mixture rather than pure compressed oxygen in order to avoid what condition? A. The bends B. Oxygen toxicity C. Rapture of the deep D. Caisson disease E. Hypoxemic hypoxia
Oxygen toxicity
68. Metabolically active tissues have which of the following sets of conditions that shift the oxyhemoglobin dissociation curve to the right? A. PO2, PCO2, temperature, BPG B. PO2, PCO2, temperature, BPG C. PO2, PCO2, temperature, BPG D. PO2, PCO2, temperature, BPG
PO2, PCO2, temperature, BPG
61. Emotional states are integrated by the __________, which generates an output that creates such respiratory variations as laughing and crying. A. VRG B. PRG C. DRG D. SRG
PRG
69. Conditions around metabolically active tissues do what to the oxyhemoglobin dissociation curve? A. Shift it right B. Shift it left C. Decrease the slope D. Increase the slope
Shift it right
33. Which of the following would lead to anemic hypoxia? A. Sickle-cell disease B. Emphysema C. Squamous-cell carcinoma D. Asthma E. Atelectasis
Sickle-cell disease
71. What is the least common but most dangerous form of lung cancer? A. Mesothelioma B. Adenocarcinoma C. Squamous cell carcinoma D. Small-cell carcinoma
Small-cell carcinoma
57. Output from higher brain centers can bypass both the DRG and VRG and go directly to __________, which controls the accessory muscles of respiration. A. the diaphragm B. spinal integration centers C. the cerebral cortex D. the vagus nerve
Spinal integration centers
20. Tom is in respiratory arrest due to an electrical shock. Why does a good samaritan have up to 4 or 5 minutes to begin CPR and save Tom's life? A. There is reserve oxygen in Tom's lungs. B. There is a venous reserve of oxygen in Tom's blood. C. The ambient Po2 can support life that long. D. The Haldane effect lasts up to 5 minutes. E. Tom's hypoxic drive will keep him alive for up to 5 minutes.
There is a venous reserve of oxygen in Tom's blood
50. The pleurae and pleural fluid help prevent the spread of pulmonary infection to the pericardium.
True
53. Gas transport is the process of carrying gases from the alveoli to the systemic tissues and vice versa.
True
35. In which condition are the lungs infected with Mycobacterium and produce fibrous nodules around the bacteria, leading to progressive pulmonary fibrosis? A. Pneumonia B. Dyspnea C. Pneumothorax D. Tuberculosis E. Rhinitis
Tuberculosis
59. Which center bears the primary responsibility for generating the respiratory rhythm, but is influenced by several other centers? A. PRG B. DRG C. VRG D. SRG
VRG
43. The blood transports more CO2 in the form of ___________ than in any other form. A. carbaminohemoglobin B. carboxyhemoglobin C. bicarbonate ions D. dissolved CO2 gas E. bisphosphocarbonate
bicarbonate ions
15. In a healthy person, which of the following will have the greatest influence on resistance to pulmonary airflow? A. Atmospheric pressure B. Respiratory rate C. Bronchiole diameter D. Quantity of surfactant E. Contraction of the diaphragm
bronchiole diameter
19. Carbon dioxide is transported by all the following means except _________. A. carbaminohemoglobin B. carbonic acid C. carbonate D. bicarbonate ions E. dissolved gas
carbonate
10. The heart indents into the __________ of the left lung. A. oblique fissure B. hilum C. apex D. cardiac impression E. base
cardiac impression
42. Mucus plays an important role in cleansing inhaled air. It is produced by __________ of the respiratory tract. A. squamous alveolar cells B. great alveolar cells C. the pleurae D. ciliated cells E. goblet cells
goblet cells
23. The addition of CO2 to the blood generates __________ ions in the RBCs, which in turn stimulates RBCs to unload more oxygen. A. sodium B. potassium C. nitrogen D. hydrogen E. chloride
hydrogen
16. The amount of air in excess of tidal volume that can be inhaled with maximum effort is the __________. A. vital capacity B. inspiratory reserve volume C. expiratory reserve volume D. residual volume E. inspiratory capacity
inspiratory reserve volume
7. Which of the following does not contain ciliated cells? A. Nasal cavity B. Trachea C. Primary bronchus D. Terminal bronchiole E. Larygopharynx
larygopharynx
2. The upper respiratory tract extends from the nose through the _________. A. trachea B. pharynx C. larynx D. alveoli E. lungs
larynx
9. Which bronchus is about 5cm long and slightly narrower and more horizontal than the one on the opposite side? A. Left segmental bronchus B. Right segmental bronchus C. Right lobar bronchus D. Left main bronchus E. Right main bronchus
left main bronchus
11. The respiratory system contains a total of five __________. A. segmental bronchi B. choanae C. laryngeal cartilages D. lobes E. tracheal cartilages
lobes
3. The nose is divided into right and left halves called the __________. A. nasal cavities B. nasal fossae C. nasal septa D. nasal vestibules E. nasal apertures
nasal fossae
25. In the air we breathe, which gas is found in the highest concentration? A. Oxygen B. Water vapor C. Nitrogen D. Carbon dioxide E. Hydrogen
nitrogen
6. Each alveolus is surrounded by a web of blood capillaries supplied by the _________. A. aorta B. pulmonary artery C. pulmonary vein D. inferior vena cava E. superior vena cava
pulmonary artery
8. What is the basic distinction between an alveolar duct and an alveolar atrium? A. Their shape B. Their size C. Their function D. Their epithelial type E. The presence or absence of cilia
their shape
13. Which of the following cartilages is largest? A. Corniculate cartilage B. Epiglottic cartilage C. Thyroid cartilage D. Cricoid cartilage E. Arytenoid cartilage
thyroid cartilage
44. Among its other purposes, how is the Valsalva maneuver used? A. To aid in defecation and urination B. As part of the procedure for giving CPR to a person in respiratory arrest C. To ventilate the lungs during eupnea D. To expel more than the usual tidal volume from the lungs E. To clear carbon monoxide from the body and replace it with oxygen
to aid in defecation and urination
4. Which two ligaments extend from the thyroid cartilage to the arytenoid cartilages? A. Vestibular and vocal B. Laryngeal and corniculate C. Corniculate and cricoid D. Cricoid and arytenoid E. Thyrohyoid and cricoids
vestibular and vochal
