Campbell Biology in Focus
Campbell Biology in Focus
3rd Edition
ISBN: 9780134710679
Author: Lisa A. Urry, Michael L. Cain, Steven A. Wasserman, Peter V. Minorsky, Rebecca Orr
Publisher: PEARSON
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Chapter 37, Problem 1TYU

What happens when a resting neuron's membrane depolarizes?

  1. A.    There is a net diffusion of Na+ out of the cell.
  2. B.     The equilibrium potential for K+ (EK) becomes more positive.
  3. C.     The neuron’s membrane voltage becomes more positive.
  4. D.    The cell’s inside is more negative than the outside.
Expert Solution & Answer
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Summary Introduction

Introduction:

In neuronal signaling, the ions have an important role. Like rest of the cells, the ions are also unequally distributed in the neurons. They are distributed unequally between the surrounding fluid and the cells interior region. Thus, membrane potential means the difference in voltage or charge across a plasma membrane. In case of the resting nerve; the one that does not send signals, the membrane potential is known as the resting potential.

Answer to Problem 1TYU

Correct answer:

When the resting neuron’s membrane depolarizes, the voltage of the neuron’s membrane becomes more positive. Therefore, option (C) is correct.

Explanation of Solution

Reason for the correct statement:

Na+ (sodium) and K+ (potassium) ions are very important for forming the resting potential. When depolarization occurs, there is inflow of Na+, which makes the interior more positive.

Option (C) is given as “The neuron’s membrane voltage becomes more positive”.

“When the resting neuron’s membrane depolarizes, the voltage of the neuron’s membrane becomes more positive”, it is the right answer.

Hence, option (C) is correct.

Reasons for the incorrect statements:

Option (A) is given as “There is a net diffusion of Na+ out of the cell”.

During depolarization, the sodium ions move in the cells not outside the cells. So, it is a wrong answer.

Option (B) is given as “The equilibrium potential for K+ (Ek) becomes more positive”.

During depolarization, the equilibrium potential for K+ is negative. So, it is a wrong answer.

Option (D) is given as “The cell’s inside is more negative than the outside”.

During depolarization, the cells interior is more positive. So, it is a wrong answer.

Hence, options (A), (B), and (D) are incorrect.

Conclusion

When the resting neuron’s membrane depolarizes, the voltage of the neuron’s membrane becomes more positive.

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Students have asked these similar questions
The nerve impulses always travel in one direction from dendrites to axon terminals. What prevents an action potential from travelling backward? a. Hyperpolarization of the neuron makes the membrane more positive and prevents another action potential. b. After repolarization, the refractory period occurs, where the sodium ions are found outside the cell. c. After repolarization, the reversal of ions prevents another action potential as there would not be enough sodium ions outside the cell to rush in. d. The refractory period prevents another action potential by lowering the threshold potential.
What membrane protein of the neuron is responsible for briefly increasing the Na+ permeability of the membrane during the rising phase of the nerve impulse?  a. the sodium-potassium pump b. the voltage gated potassium channel c. the voltage gated sodium channel d. the stimulus gated sodium channel e. the ligand gated ion channel
During an action potential, the inside of the cell membrane becomes more positive than the outside. Why does this happen? a. During depolarization, the sodium ions rush in and the potassium ions have not begun rushing out, making the inside more positive. b. During depolarization, the sodium ions rush in and the potassium ions have not begun rushing out, making the outside more positive. c. During depolarization, the potassium ions rush in and the sodium ions have begun rushing out, making the inside more positive. d. During depolarization, the sodium ions rush in and the potassium ions have begun rushing out, making the outside more positive.
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