Compact stencil

Two Point Stencil Example

The two point stencil for the first derivative of a function is given by:

f ′ ( x 0 ) = f ( x 0 + h ) − f ( x 0 − h ) 2 h + O ( h 2 ) .

This is obtained from the Taylor series expansion of the first derivative of the function given by:

f ′ ( x 0 ) = f ( x 0 + h ) − f ( x 0 ) h − f ( 2 ) ( x 0 ) 2 ! h − f ( 3 ) ( x 0 ) 3 ! h 2 − f ( 4 ) ( x 0 ) 4 ! h 3 + ⋯ .

Replacing h with − h , we have:

f ′ ( x 0 ) = − f ( x 0 − h ) − f ( x 0 ) h + f ( 2 ) ( x 0 ) 2 ! h − f ( 3 ) ( x 0 ) 3 ! h 2 + f ( 4 ) ( x 0 ) 4 ! h 3 + ⋯ .

Addition of the above two equations together results in the cancellation of the terms in odd powers of h :

2 f ′ ( x 0 ) = f ( x 0 + h ) − f ( x 0 ) h − f ( x 0 − h ) − f ( x 0 ) h − 2 f ( 3 ) ( x 0 ) 3 ! h 2 + ⋯ .

f ′ ( x 0 ) = f ( x 0 + h ) − f ( x 0 − h ) 2 h − f ( 3 ) ( x 0 ) 3 ! h 2 + ⋯ .

f ′ ( x 0 ) = f ( x 0 + h ) − f ( x 0 − h ) 2 h + O ( h 2 ) .

Three Point Stencil Example

For example, the three point stencil for the second derivative of a function is given by:

f ( 2 ) ( x 0 ) = f ( x 0 + h ) + f ( x 0 − h ) − 2 f ( x 0 ) h 2 + O ( h 2 ) .

This is obtained from the Taylor series expansion of the first derivative of the function given by:

f ′ ( x 0 ) = f ( x 0 + h ) − f ( x 0 ) h − f ( 2 ) ( x 0 ) 2 ! h − f ( 3 ) ( x 0 ) 3 ! h 2 − f ( 4 ) ( x 0 ) 4 ! h 3 + ⋯ .

Replacing h with − h , we have:

f ′ ( x 0 ) = − f ( x 0 − h ) − f ( x 0 ) h + f ( 2 ) ( x 0 ) 2 ! h − f ( 3 ) ( x 0 ) 3 ! h 2 + f ( 4 ) ( x 0 ) 4 ! h 3 + ⋯ .

Subtraction of the above two equations results in the cancellation of the terms in even powers of h : 0 = f ( x 0 + h ) − f ( x 0 ) h + f ( x 0 − h ) − f ( x 0 ) h − 2 f ( 2 ) ( x 0 ) 2 ! h − 2 f ( 4 ) ( x 0 ) 4 ! h 3 + ⋯ .

f ( 2 ) ( x 0 ) = f ( x 0 + h ) + f ( x 0 − h ) − 2 f ( x 0 ) h 2 − 2 f ( 4 ) ( x 0 ) 4 ! h 2 + ⋯ .

f ( 2 ) ( x 0 ) = f ( x 0 + h ) + f ( x 0 − h ) − 2 f ( x 0 ) h 2 + O ( h 2 ) .