. Biophysical science. Biophysics. Figure 6. Simplified diagram of clamped nerve circuit. In actual practice, V was read between electrodes b and e, then compensated for the drop from c to e. For a pictorial sketch of electrodes, see Figure 5. After A. L. Hodgkin, A. F. Huxley, and B. Katz, " Current-Voltage Relation in Nerve," J. Physiol. 116: 424 (1952).. 10 II 12 13 msec Figure 7. Records of membrane current under a voltage clamp. At zero time, the membrane potential was increased by 65 mV (record A) or decreased by 65 mV (record B); this level was then maintained constant through
. Biophysical science. Biophysics. Figure 6. Simplified diagram of clamped nerve circuit. In actual practice, V was read between electrodes b and e, then compensated for the drop from c to e. For a pictorial sketch of electrodes, see Figure 5. After A. L. Hodgkin, A. F. Huxley, and B. Katz, " Current-Voltage Relation in Nerve," J. Physiol. 116: 424 (1952).. 10 II 12 13 msec Figure 7. Records of membrane current under a voltage clamp. At zero time, the membrane potential was increased by 65 mV (record A) or decreased by 65 mV (record B); this level was then maintained constant throughout the record. The inward current is shown as an upward deflection. Temperature °G. In a passive system, the current in record B should always have been outward (downward deflection). After A. L. Hodgkin, A. F. Huxley, and B. Katz, " Current-Voltage Relation in Nerve," J. Physiol. I 16: 424 (1952).. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Ackerman, Eugene, 1920-. Englewood Cliffs, N. J. , Prentice-Hall
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