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The electronic circuit in vacuum tubes has been modelled as Van der Pol equation of d²y dt² - µ(y² – 1) +y dy dt 0, μ >
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The electronic circuit in vacuum tubes has been modelled as Van der Pol equation of d²y dt² - µ(y² – 1) +y dy dt 0, μ >
The electronic circuit in vacuum tubes has been modelled as Van der Pol equation of d²y dt² - µ(y² – 1) +y dy dt 0, μ > 0. The parameter represents a damping indicator and y(t) is a voltage across the capacitor at time, t. Suppose that fl = 0.5 with boundary conditions y(0) = 0 and y(2) = 1. - (a) = Given the first initial guess 20 = 0.3 and the second initial guess zo approximate the solution of y(t) using the shooting method with a step size of h = 0.4. 0.75, =