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(1 point) 3 It can be shown that y₁ = 2y2 = x³ and y3 = 5 are solutions to the differential equation X x²y"" +8xy" +12y'
Posted: Wed Jul 06, 2022 11:49 am
by answerhappygod
- 1 Point 3 It Can Be Shown That Y 2y2 X And Y3 5 Are Solutions To The Differential Equation X X Y 8xy 12y 1 (33.19 KiB) Viewed 16 times
(1 point) 3 It can be shown that y₁ = 2y2 = x³ and y3 = 5 are
solutions to the differential equation X x²y"" +8xy" +12y' = 0 on the interval (0,00). Find the Wronskian of y1, 32, 3 (Note the order matters) W(y1, 92, 93) Do the functions 31, 32, 33 form a fundamental set on (0, ∞)? Answer should be yes or no