Would you please help me with this Matlab problem? I need help with both sections a. and b.

Note: it's going to be a Matlab script.

Thank you

Problem 6. a. Recall, the electric potential of an ion can be calculated by the Nernst equation: Eion=ZFRTlog10(ionconcentrationinsidethecellionconcentrationoutsidethecell) Where Z represents the charge of the ion, R is the ideal gas constant, T is the temperature in Kelvin and F is the Faraday's constant. The constant (RT/F) =62mV and the concentration values (in mM ) of 3 different ions and their charge are as follows: Calculate the electric potentials of Potassium (EK), Sodium (ENa) and Calcium (ECl). Display the values for each. b. The resting membrane potential (RMP) of a neuron can be calculated using the following formula: RMP=(GK+GNa+GCl)(GKEK+GNaENa+GClECl) Where Gion represents the conductance of that particular ion in microSiemens (S) and Eion represents the electric potential of the corresponding ion. Using the following conductance values for each ion species and the electrical potentials calculated in part 6.a, compute the resting membrane potential (RMP) for a typical neuron: Problem 6. a. Recall, the electric potential of an ion can be calculated by the Nernst equation: Eion=ZFRTlog10(ionconcentrationinsidethecellionconcentrationoutsidethecell) Where Z represents the charge of the ion, R is the ideal gas constant, T is the temperature in Kelvin and F is the Faraday's constant. The constant (RT/F) =62mV and the concentration values (in mM ) of 3 different ions and their charge are as follows: Calculate the electric potentials of Potassium (EK), Sodium (ENa) and Calcium (ECl). Display the values for each. b. The resting membrane potential (RMP) of a neuron can be calculated using the following formula: RMP=(GK+GNa+GCl)(GKEK+GNaENa+GClECl) Where Gion represents the conductance of that particular ion in microSiemens (S) and Eion represents the electric potential of the corresponding ion. Using the following conductance values for each ion species and the electrical potentials calculated in part 6.a, compute the resting membrane potential (RMP) for a typical neuron