<p>A. For a given action potential at 18°C, the Na<sup>+</sup> and K<sup>+</sup> currents have a large overlap, resulting in a cancelled effect in the total membrane charge current C*dV/dt and the ratio of absolute minimal dV/dt to maximal dV/dt ratio is small, approximately 0.06. For a given action potential at 37°C, the Na<sup>+</sup> and K<sup>+</sup> currents exhibit significantly less overlap, leading to a relatively large minimal dV/dt peak (similar in amplitude-time course as I<sub>K</sub>), while the maximal dV/dt peak resembles the amplitude-time course of I<sub>Na</sub>. The absolute minimal dV/dt to maximal dV/dt is increased to 0.14. B. The ratio γ (defined as the ratio of absolute minimal dV/dt to maximal dV/dt) increases as a function of temperature for both classical HH neuron and cortical neuronal models, owing largely to the decrease in overlap of Na<sup>+</sup> and K<sup>+</sup> currents with increases in temperature. C. The excess Na<sup>+</sup> entry ratio decreases as a function of γ for both HH and cortical neuronal models.</p
