Find the second order Fourier approximation of the function ?(?) = ? on −? ≤ ?...

Q1. Find the an in the Fourier series expansion of the function                     ?(?) = 9x2...

Q1. Find the an in the Fourier series expansion of the function                     ?(?) = 9x2 + 7 sin(M?) defined over the interval (−?, ?).

a. Let f be an odd function. Find the Fourier series of f on [-1, 1]...

a. Let f be an odd function. Find the Fourier series of f on [-1, 1] b. Let f be an even function. Find the Fourier series of f on [-1, 1]. c. At what condition for f would make the series converge to f at x=0 and x=1?

Find all the second order partial derivatives of the function w = x - y /...

Find all the second order partial derivatives of the function w = x - y / x2 + y

Q2: Show that the DuFort-Frankel Approximation is second order accurate in both time and space?

Q2: Show that the DuFort-Frankel Approximation is second order accurate in both time and space?

Find the Fourier series of ? up to the second harmonic from the following table: x...

Find the Fourier series of ? up to the second harmonic from the following table: x 0 2 4 6 8 10 12 y 9.0 18.2 24.4 27.8 27.5 22.0 9.0

Find the Fourier series of the periodic function given on one period of length 2 by...

Find the Fourier series of the periodic function given on one period of length 2 by f(x) = x2, - 1 < x < 1:

How to proof that the Fourier series of a function exist? vice versa, if the Fourier...

How to proof that the Fourier series of a function exist? vice versa, if the Fourier series of a function doesn't exist, how do i proof it?

Find the Fourier series of the function f on the given interval. f(x) = 0,   ...

Find the Fourier series of the function f on the given interval. f(x) = 0,    −π < x < 0 1,    0 ≤ x < π

Find the Fourier series of the function: f(x) = {0, -pi < x < 0 {1,...

Find the Fourier series of the function: f(x) = {0, -pi < x < 0 {1, 0 <= x < pi

Find the first- and second-order partial derivatives for the following function. z = f (x, y)...

Find the first- and second-order partial derivatives for the following function. z = f (x, y) = (ex +1)ln y.