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8.3.2 Example B Consider the following Cauchy-Euler differential equation dy + y = 0. (8.77) dx? Its characteristic equation is r(r – 1) +1= r² – r +1 = 0, (8.78) - with solutions V3 i, 2 1 ri = r2 2 i = V-1. (8.79) To obtain the general solution, the quantity x"1 must be calculated. This is done as follows (x ) exp + i In x 2 (8.80) = x Therefore, y(x) is given by the expression [(4) [(4)-} 72 A cos In x + B sin In x (8.81) = X Note that for x > 0, the solution oscillates with increasing amplitude. The corresponding discrete version of equation (8.77) is k(k + 1)A²yk + Yk = 0, (8.82) and its characteristic equation is that given in equation (8.78). Therefore, the general solution is Yk = Ck+r) + c•T(k+r*) r(k +r*) + C* I(k) (8.83) I(k) where r = r1 and C is an arbitrary complex number. Observe that the manner in which the right side of equation (8.83) is written insures real values for Yk- This depends also on the fact that the gamma function I(z) is real-valued, i.e., for z = x + iy, I'(z*) = [T'(2)]*. The integral representation of the gamma function allows this to be easily demonstrated, i.e., T(z) e-ttz-1dt. (8.84) Finally, while it is not to be expected that y(x), equation (8.81), and yk, equation (8.83) have "exactly" the same mathematical structure for all x and k, where the correlation between these variables is x → Xk = (Ax)k, Ax = 1, (8.85)