1.(20pts) Begin with the distributed element model of Figure 6.1 and derive first the "Cable Equations" [Eq 6.1-6.4]. Include in this the polarizing current, ip, and then move onto the differential equation presented in Equation 7.14. This is not a short problem...so take your time in laying it out. Note: One very good way to learn is to go through a paper or a book and derive every equation, every step-r-even the ones they left out-o-when you are done, you will understand the path that it took to get there. xe=Iere xi=Iiri xIi=im xIe=im+ip 2x22vmtvmvm=re2ip 1.(20pts) Begin with the distributed element model of Figure 6.1 and derive first the "Cable Equations" [Eq 6.1-6.4]. Include in this the polarizing current, ip, and then move onto the differential equation presented in Equation 7.14. This is not a short problem...so take your time in laying it out. Note: One very good way to learn is to go through a paper or a book and derive every equation, every step-r-even the ones they left out-o-when you are done, you will understand the path that it took to get there. xe=Iere xi=Iiri xIi=im xIe=im+ip 2x22vmtvmvm=re2ip