ELEC 436/536 Bioelectronics Spring 2020 Part 1: Coding of Below and Above Threshold Neuronal Model 1) Read carefully the book pages of 133 - 140 to understand the algorithm for HH model and RC model. 2) According to the directions provided in these pages write a MATLAB code to find memberanes voltage, ionic currents, probability particles of n, m, and h versus time (You can look at question 7 of CH5 of the book as well). Use the values provided in the table below as initial values. Note that for parts 1-5 use initial Vm= -60 mV. Table 13.2. HH Membrane and Environmental Parameters Parameter Value m. 0.0393 SK UNE 9L EK EN EL V. I. -72.1 mV 36 mSlem? maximum conductivity 120 mS/cm maximum Nat conductivity 0.3 mS/cm? leakage conductivity 1.0 Fem membrane capacitance K+ Nernst potential 52.4 mV Na Nemst potential -49.2 mV leakage Nernst potential -60 mV resting potential 0 Alem' stimulus current 0 W/cm total membrane current for patch if no stimulus h 0.6798 no 0.2803 Temperature 6.3 C Using the following parameters for HH and RC model. R = 10 kOhm.cm?, C = 1 uF/cm, Vrest = -60 mV, and a time step (dt) of 0.01 ms. Generate a representative plot of the membrane voltage as a function of time for a step current density injection with I = 53 A/cm for 0