Nokea
Oxygen dissociation curve of myoglobin is
- A. Hypobolic
- B. Hyperbolic
- C. Linear
- D. Sigmoid
Correct Answer: B
Rationale: The correct answer is B: Hyperbolic. Myoglobin exhibits a hyperbolic oxygen dissociation curve due to its high affinity for oxygen, allowing it to bind oxygen quickly and efficiently at low partial pressures. This curve represents a simple one-to-one binding relationship between myoglobin and oxygen. The other choices are incorrect because A (Hypobolic) does not accurately describe myoglobin's binding characteristics, C (Linear) is not representative of the typical oxygen binding behavior of myoglobin, and D (Sigmoid) is more characteristic of hemoglobin, which exhibits cooperative binding of oxygen.
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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.
A client has been diagnosed with tuberculosis (TB). What action by the nurse takes highest priority?
- A. Educating the client on adherence to the treatment regimen
- B. Encouraging the client to eat a well-balanced diet
- C. Informing the client about follow-up sputum cultures
- D. Teaching the client ways to balance rest with activity
Correct Answer: A
Rationale: The correct answer is A because educating the client on adherence to the treatment regimen is the top priority in managing TB. This is crucial to prevent the spread of the disease and ensure successful treatment. Choice B is important for overall health but not the priority. Choice C is important but comes after starting treatment. Choice D is also important but does not directly impact the treatment outcome for TB.
The pulmonary ventilation rate for someone with tidal volume of 500 mL and a respiration rate of 14 bpm is:
- A. 6,000 L/min
- B. 6 L/min
- C. 7 L/min
- D. 4.2 L/min
Correct Answer: C
Rationale: To calculate pulmonary ventilation rate, multiply tidal volume by respiration rate. In this case, 500 mL * 14 bpm = 7,000 mL/min. Converting to liters, it's 7 L/min. Choice A is incorrect as it miscalculates the conversion from mL to L, B is incorrect due to incorrect calculation, and D is incorrect as it's not the accurate result of the multiplication.
Why may an ice collar be ordered for a client who is undergoing drainage of a peritonsillar abscess?
- A. To reduce swelling and pain
- B. To help the client drink fluids
- C. To prevent respiratory obstruction
- D. To prevent excessive bleeding
Correct Answer: A
Rationale: The correct answer is A. An ice collar reduces swelling and pain by constricting blood vessels and numbing the area. B (helping the client drink fluids) is unrelated. C (preventing respiratory obstruction) is not the primary purpose of an ice collar. D (preventing excessive bleeding) is managed differently, usually with direct pressure or medication.
Which of the following gas mixture is used by Divers to prevent Oxygen toxicity
- A. Oxygen and CO2
- B. Oxygen and Nitrogen
- C. Oxygen and rare gases
- D. Oxygen, CO2 and Nitrogen
Correct Answer: B
Rationale: The correct answer is B: Oxygen and Nitrogen. This gas mixture is used by divers to prevent Oxygen toxicity because it closely mimics the composition of the air we breathe. Oxygen toxicity can occur at high partial pressures of Oxygen, which can lead to seizures and other serious health issues. Choices A, C, and D are incorrect because CO2 and rare gases are not typically used in diving gas mixtures, and including CO2 in the mixture can increase the risk of Oxygen toxicity. Nitrogen is used as a diluent to reduce the partial pressure of Oxygen, making it safer for divers.