Nokea
Alveolar ventilation in a male with a respiratory rate of 10/min and tidal volume of 600 ml is
- A. 1000ml
- B. 1750 ml
- C. 3000ml
- D. 4500ml
Correct Answer: D
Rationale: The correct answer is D: 4500ml. Alveolar ventilation is calculated by multiplying tidal volume by respiratory rate. In this case, 600ml (tidal volume) x 10/min (respiratory rate) = 6000ml/min. However, we need to consider dead space ventilation, which is about 150ml. Therefore, the final alveolar ventilation is 6000ml/min - 150ml = 5850ml/min. Since the question asks for alveolar ventilation per minute, the correct answer is the closest option, which is D: 4500ml.
Choices A, B, and C are incorrect because they do not accurately reflect the calculation of alveolar ventilation based on the provided respiratory rate, tidal volume, and dead space ventilation.
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The movement of both oxygen and carbon dioxide in the body is accomplished by
- A. exocytosis and endocytosis
- B. bulk flow.
- C. osmosis
- D. diffusion.
Correct Answer: D
Rationale: The correct answer is D: diffusion. Oxygen and carbon dioxide move in and out of cells through simple diffusion, which is the passive movement of molecules from an area of high concentration to an area of low concentration. This process occurs due to the concentration gradient of these gases. Osmosis (Choice C) is the movement of water across a selectively permeable membrane, not gases like oxygen and carbon dioxide. Exocytosis and endocytosis (Choice A) involve the transport of larger molecules and particles in and out of cells, not gases. Bulk flow (Choice B) involves the movement of fluids in response to pressure differences, not the specific movement of oxygen and carbon dioxide molecules. Therefore, diffusion is the correct mechanism for the movement of oxygen and carbon dioxide in the body due to their small molecular size and the concentration gradient present.
A nurse is suctioning fluids from a female client through an endotracheal tube. During the suctioning procedure, the nurse notes on the monitor that the heart rate is decreasing. Which if the following is the appropriate nursing intervention?
- A. Continue to suction.
- B. Notify the physician immediately.
- C. Stop the procedure and reoxygenate the client.
- D. Ensure that the suction is limited to 15 seconds.
Correct Answer: C
Rationale: The correct answer is C: Stop the procedure and reoxygenate the client. When the nurse notes a decreasing heart rate during suctioning, it could indicate that the client is experiencing hypoxia. Stopping the procedure and providing additional oxygenation is crucial to prevent further complications such as bradycardia or cardiac arrest. Continuing to suction (choice A) can worsen the hypoxia. Notifying the physician immediately (choice B) may cause a delay in addressing the immediate issue. Limiting suction to 15 seconds (choice D) does not address the primary concern of hypoxia and decreasing heart rate.
A sputum study has been ordered for a patient who has developed coarse chest crackles and a fever. At what time should the nurse best collect the sample?
- A. Immediately after a meal
- B. First thing in the morning
- C. At bedtime
- D. After a period of exercise
Correct Answer: B
Rationale: The correct answer is B: First thing in the morning. Sputum should be collected in the morning because it is usually more concentrated, making it easier to obtain a good sample. This is important for accurate analysis and identifying potential pathogens causing the patient's symptoms. Collecting sputum immediately after a meal may result in contamination with food particles. At bedtime, sputum may have accumulated overnight, but morning samples are still preferred due to concentration. Collecting sputum after a period of exercise may introduce respiratory secretions not reflective of the underlying condition.
What is a primary treatment goal for cor pulmonale?
- A. Controlling dysrhythmias
- B. Dilating the pulmonary arteries
- C. Strengthening the cardiac muscle
- D. Treating the underlying pulmonary condition
Correct Answer: D
Rationale: The primary treatment goal for cor pulmonale is to treat the underlying pulmonary condition causing the right-sided heart failure, as addressing the pulmonary issue can help alleviate the strain on the heart.
The collapse of lung is known as:
- A. pleurisy
- B. pleural effusion
- C. atelectasis
- D. pneumothorax
Correct Answer: C
Rationale: The correct answer is C: atelectasis. Atelectasis refers to the collapse of a lung or a part of a lung, leading to incomplete expansion of air sacs. This can be caused by various factors such as blockage of the airways or compression of the lung tissue. Pleurisy (A) is inflammation of the pleura, the lining around the lungs. Pleural effusion (B) is the accumulation of fluid in the pleural space. Pneumothorax (D) is the presence of air in the pleural space, leading to lung collapse. Atelectasis specifically describes the collapse of the lung itself, making it the correct choice.