1. Determine whether x = 0 is an ordinary point of the differential equation:
x2 y " + 2 y' + xy = 0
Soln.
Rewrite in standard form:
y " = - 2 y' / x2 - xy / x2
y " = - (2 / x2) y'- y / x
P(x) = 2 / x2
Q (x) = 1/x
Neither function is analytic at x= 0 so x = 0 is a singular point of the differential equation because the denominators go to 0.
2. Find the power series solution for the differential equation:
xy" + x3 y - 3 y = 0
That satisfies: y = 0 and y' = 2 at x = 1
Soln.:
Rewrite in standard form and differentiate in successive steps:
y" = - x2 y' + 3 x-1 y
y"' = - x 2 y" - (2x y' - 3 x-1 ) y' - 3 x-2 y
y iv = - x 2 y"' - ( 4 x - 3 x-1 ) y" - ( 2 + 6 x-2 )y' + 6 x-3 y
Evaluate these derivatives at x =1 :
y"(1) = -2
y"'(1) = 4
y iv (1) = -18
Then the solution is:
y(x) = 2(x - 1) - (x - 1) 2 + 2/3 (x - 1) 3 - 3/4 (x - 1)' . . .
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