CVS Practice Test

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What does the Nernst equation help to describe?

Muscle contraction mechanics

Cell membrane potential and chemical equilibrium

The Nernst equation is a pivotal formula in electrochemistry and physiology that helps describe the equilibrium potential for a specific ion across a membrane. This equilibrium potential is the electrical potential difference that balances the concentration gradient of the ion, resulting in no net movement of the ion across the membrane when at this potential.

In the context of cell membranes, the equation takes into account the concentration of ions inside and outside the cell, allowing one to calculate the voltage needed to achieve equilibrium for that particular ion. This understanding is crucial for grasping how different ions contribute to the overall membrane potential of a cell, ultimately influencing cell signaling and physiological functions, such as the firing of neurons and the contraction of muscles.

The other options, while related to cellular activity, do not accurately reflect the primary application of the Nernst equation. Muscle contraction mechanics involve a complex interplay of electrical and biochemical processes that are not solely defined by the Nernst equation. Action potentials in cardiac cells involve dynamic changes in membrane potential influenced by multiple ions and channels rather than a static equilibrium point. Concentration gradients across all ion channels encompass a broader concept, whereas the Nernst equation specifically targets individual ions' potentials.

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Action potentials in cardiac cells

Concentration gradients across all ion channels

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