Question

The namesake of this equation also developed the third law of thermodynamics. For 10 points each:
[10m] Name this electrochemical equation that finds the equilibrium reduction potential of a half-cell, named for a German chemist.
ANSWER: Nernst equation
[10h] The Goldman equation applies the Nernst equation to calculate the resting potential of these structures by considering the permeability and concentration gradients of multiple ions.
ANSWER: cell membranes
[10e] The Nernst equation calculates the reduction potential of a galvanic cell, a general type of these sources of electrical power, whose first was known as the “voltaic pile."
ANSWER: batteries [accept battery
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