In each of 1 through 6, generate approximate numerical values of the solution using h = 0.2 and twenty iterations (n = 20). In each of 1 through 5, the problem can be solved exactly. Obtain this solution to compare approximate values at the xk s with the exact solution values.y= x + y; y(1) = 3

Calculus notes for week of 9/19/16 3.6 Derivatives as Rates of Change Velocity is measured as: V ave(t+∆t) or s(b) – s(a) ∆t b – a (Change in position over change in time.) S’’(t) = V’(t) = A(t) (From left to right: S=Position, V= Velocity, and A=Acceleration) Average and Marginal Cost Suppose C(x) gives the total cost to produce x units of a good cost. Sometimes,...