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Chapter 05 Membrane Potentials and Action Potentials
Complete Chapter Questions And Answers
Sample Questions
1. The diagram shows compound action potentials recorded percutaneously from a single site a certain distance from a stimulating electrode indicated by the arrow. Which peak is most likely to represent action potentials from small, non-myelinated motor neurons?
ANS: D
2. A 42-year-old woman decides to lose weight on a diet prescribed by an anorexic friend. She loses about 30 pounds in 45 days, but her serum potassium level falls to 2.1 mmol/L (normal: 3.5 to 5.0 mmol/L). Which of the following changes is most likely to occur in this young woman?
A. Depolarization of the resting membrane potential
B. Hyperpolarization of the resting membrane potential
C. Increased intracellular potassium concentration
D. Potassium equilibrium potential becomes less negative
ANS: B
3. An 22-year-old man is admitted to the emergency department after an automobile accident. He has not lost a large amount of blood, but he suffers from a severe crush injury to his right leg. He is conscious and exhibits flaccid paralysis. Electrocardiogram results show a shortened QT interval and an increase in the P-R interval (i.e., decreased duration of action potential and decreased conduction velocity). Laboratory results indicate that his serum potassium level has increased to a value of 6.5 mEq/L (normal: 3.5 to 5.0 mEq/L). This increase in serum potassium causes which of the following?
A. A decreased net driving force for potassium from cells
B. Decreased intracellular potassium concentration
C. Hyperpolarization of the resting membrane potential
D. More negative Nernst potential for potassium
E. More negative resting membrane potential
ANS: A
4. An 88-year-old nursing home resident has diabetes mellitus and is taking diuretics for hypertension. His blood glucose concentration has recently been greater than 350 mg/dL. He is disoriented and has had limited oral intake for about five days. His vital signs include a temperature of 100.5°F, a supine blood pressure and pulse of 150/90 mm Hg and 100 beats per minute, and an upright blood pressure and pulse of 130/88 mm Hg and 118 beats per minute. The findings on examination of the heart are normal, and his axillae are dry. The table shows serum Na+ and K+ values before and after the dehydration that has occurred in this patient. The resting membrane potential of a cardiac myocyte was about −70 millivolts before dehydration occurred. What is the resting membrane potential of a cardiac myocyte after dehydration occurred, assuming no change in membrane conductance or intracellular concentrations of Na+ or K+ ions?
A. −100 millivolts
B. −50 millivolts
C. −60 millivolts
D. −70 millivolts
E. −90 millivolts
ANS: D
5. A 44-year-old man is recovering from third degree burns over 50% of his body surface area. His serum potassium level is low (2.9 mEq/L). He exhibits postural hypotension and skeletal muscle weakness. If the equilibrium potential for K+ in a neuron is −105 mV and the equilibrium potential for Na+ is +55 mV, what would be an approximate value for the resting membrane potential for a neuron in this man?
A. +20 mV
B. +48 mV
C. +80 mV
D. −25 mV
E. −48 mV
F. −96 mV
ANS: F
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