Nokea
If PO2 increases
- A. saturation goes up and hemoglobin stores oxygen
- B. hemoglobin stores oxygen
- C. hemoglobin gives away oxygen
- D. saturation goes up
Correct Answer: A
Rationale: Step 1: Increased PO2 leads to higher oxygen levels in blood.
Step 2: Higher PO2 causes hemoglobin to become fully saturated with oxygen.
Step 3: Fully saturated hemoglobin stores more oxygen.
Step 4: Therefore, as PO2 increases, saturation goes up and hemoglobin stores more oxygen. Other choices are incorrect because they do not align with the relationship between PO2, hemoglobin saturation, and oxygen storage in the blood.
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Hemoglobin
- A. tends to release oxygen under warmer temperatures
- B. picks up more oxygen the higher its partial pressure.
- C. picks up more oxygen when it is saturated
- D. will give up oxygen when the partial pressure of oxygen is higher than it is in the lungs.
Correct Answer: B
Rationale: The correct answer is B because hemoglobin follows the principle of partial pressure, which states that gases move from areas of higher partial pressure to lower partial pressure. Therefore, hemoglobin will pick up more oxygen when the partial pressure of oxygen is higher, such as in the lungs. Choice A is incorrect because hemoglobin actually releases oxygen at higher temperatures. Choice C is incorrect because hemoglobin picks up oxygen when it is not fully saturated. Choice D is incorrect because hemoglobin releases oxygen when the partial pressure of oxygen is higher, not when it is lower.
Which of the following changes does not occur at birth when an infant takes his or her first breaths?
- A. Blood flow to the lungs decreases
- B. The resistance in the pulmonary arteries decreases
- C. Changes in blood flow cause the foramen ovale to close
- D. Air enters the alveoli
Correct Answer: A
Rationale: The correct answer is A because at birth, when an infant takes their first breaths, blood flow to the lungs increases due to the expansion of the pulmonary vasculature. This allows for proper oxygenation of the blood. Choice B is incorrect as the resistance in the pulmonary arteries decreases to accommodate the increased blood flow to the lungs. Choice C is incorrect as changes in blood flow do cause the foramen ovale to close, ensuring proper circulation. Choice D is incorrect as air entering the alveoli is essential for oxygen exchange to occur in the lungs.
Diaphragm present in mammals is
- A. Membrane between external and middle ear
- B. Membrane around the brain
- C. Partition between the thoracic and abdominal cavities
- D. Membrane around lungs
Correct Answer: C
Rationale: The diaphragm in mammals is a muscular structure that separates the thoracic and abdominal cavities. This is essential for breathing as it contracts and relaxes to facilitate the movement of air into and out of the lungs. Therefore, the correct answer is C.
Choice A is incorrect because the membrane between the external and middle ear is called the eardrum or tympanic membrane. Choice B is incorrect as the membrane around the brain is the meninges. Choice D is incorrect as the membrane around the lungs is the pleura.
The nurse is caring for a patient with a lower respiratory tract infection. When planning a focused respiratory assessment, the nurse should know that this type of infection most often causes what?
- A. Impaired gas exchange
- B. Collapsed bronchial structures
- C. Necrosis of the alveoli
- D. Closed bronchial tree
Correct Answer: A
Rationale: Step 1: Lower respiratory tract infection affects the lungs where gas exchange occurs.
Step 2: Infections can lead to inflammation and fluid buildup in the lungs.
Step 3: This impairs the exchange of oxygen and carbon dioxide.
Step 4: Impaired gas exchange can lead to hypoxemia and respiratory distress.
Step 5: Therefore, the correct answer is A: Impaired gas exchange. Other choices are incorrect because they do not directly relate to the physiological consequences of a lower respiratory tract infection.
Miriam, a college student with acute rhinitis sees the campus nurse because of excessive nasal drainage. The nurse asks the patient about the color of the drainage. In acute rhinitis, nasal drainage normally is:
- A. Yellow
- B. Green
- C. Clear
- D. Gray
Correct Answer: C
Rationale: The correct answer is C: Clear. In acute rhinitis, the nasal drainage is typically clear because it is caused by viral infections or allergies, which result in clear mucus production. Yellow or green drainage may indicate a bacterial infection, which is not typically associated with acute rhinitis. Gray drainage is uncommon in nasal discharge and may suggest a more serious underlying condition. Therefore, the nurse asked about the color of the drainage to assess the nature of the infection and determine the appropriate course of treatment.