Consider an ordinary differential equation. \(\frac{{{\rm{dx}}}}{{{\rm{dt}}}} = 4{\rm{t}} + 4.\) If x = x0 at t = 0, the increment in x calculated using Runge-Kutta fourth order multi-step method with a step size of Δt = 0.2 is

Consider an ordinary differential equation. \(\frac{{{\rm{dx}}}}{{{\rm

1.	Consider an ordinary differential equation. \(\frac{{{\rm{dx}}}}{{{\rm{dt}}}} = 4{\rm{t}} + 4.\) If x = x0 at t = 0, the increment in x calculated using Runge-Kutta fourth order multi-step method with a step size of Δt = 0.2 is
A.	0.22
B.	0.44
C.	0.66
D.	0.88
Answer» E.