In solving a differential equation with a finite-difference method, one computes derivatives with various combinations of the function's values at chosen grid points. For example, the forward difference formula for the first derivative is
where j is the grid index and h is the spacing between points. The systematic approach for deriving such formulas is to use Taylor series. In the example above, one can write
Then solving for
and neglecting terms of order
and higher gives
Because the exponent on h in the last term is 1, the method is called a first order method.
Write a function that takes the order n of the derivative and a vector terms indicating the terms to use (based on the number of grid cells away from the point in question) and produces a vector of coefficients, the order of the error term, and the numerical coefficient of the error term. In the above example, n = 1 and terms = [1 0], and
coeffs = [1 -1]
errOrder = 1
errCoeff = -0.5;
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