Introduction
When a neuron produces an action potential it could be due to chemical …show more content…
In order to analyze the responses of the sciatic nerve and the gastrocnemius of a Rana pipens, one exercise was selected from Lab five and five exercises were selected from Lab six. Both lab five and Lab six had a study length of three weeks to be performed. In the first experiment, the only exercise analyzed (Exercise one), was the determination of the threshold voltage and the relationship between stimulus intensity and compound action potentials(CAP). On the second experiment, five exercises were analyzed, these experiments focused on the stimulus intensity and strength of contraction, the effect of stretch on contractile force, the effect of paired pulses on contraction force(summation), muscle tetanus, and muscle and nerve …show more content…
The highest stimulus intensity was 400 mV and it also stimulated a high CAP amplitude of 133.2 mV (Figure 1). For the muscle and the nerve, the higher the stimulus amplitude the bigger the stimulation contraction force. The highest stimulation amplitude for both the muscle and nerve was 95 mV. The muscle stimulation contraction force was 1.69N and the nerve had a force of 0.99N (Figure 2). For the sciatic nerve the bigger the preload force, the bigger the raw twitch force, and the lower the net twitch force. The largest preload was 2.31N, it resulted in a 2.76N raw twitch force, and a net twitch force of 0.45N (Figure 3). When the sciatic nerve was exposed to pulse interval twin peaks were present, however, the second peak had the highest force, however as the pulse increased the peaks merged together. The highest force was on the second peak with a force of 4.06N, this was caused by a pulse interval of 500ms. The merging of the twin peaks occurred at 20ms with a force of 3.93N (Figure 4). The isolated nerve was then exposed to varies stimulus intervals to determine its maximum contraction force. Therefore, the last stimulus interval of 20ms had the largest maximum contraction force of 4.69N (Figure 5). The last experiment required, seven different time stimulation to determine the maximum contraction force for both the muscle and nerve stimulation. The maximum