11. Use Runge-Kutta Fourth Order Method to approximate the solution to the given initial value problem at t = 1.5 and compare the result to the actual values. y' = 1 + ², 1≤t≤2, y(1) = 2, with h = 0.25 Note: Actual solution y(t) = t ln t + 2t

Advanced Engineering Mathematics
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Chapter2: Second-order Linear Odes
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11. Use Runge-Kutta Fourth Order Method to approximate the solution to the given
initial value problem at t = 1.5 and compare the result to the actual values.
y'=1+², 1≤t≤2, y(1) = 2, with h = 0.25
Note: Actual solution y(t) = t ln t + 2t
Transcribed Image Text:11. Use Runge-Kutta Fourth Order Method to approximate the solution to the given initial value problem at t = 1.5 and compare the result to the actual values. y'=1+², 1≤t≤2, y(1) = 2, with h = 0.25 Note: Actual solution y(t) = t ln t + 2t
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