Binet returns (Posted on 2007-05-04)

	Submitted by Kurious
Rating: 4.0000 (2 votes)
Solution:	(Hide)
We begin by defining: f(x) = cx where c is constant. Then: f(x) = 7 f(x-1) - 14 f(x-2) + 8 f(x-3) cx = 7 cx-1 - 14 cx-2 + 8 cx-3 c0 = 7 c-1 - 14 c-2 + 8 c-3 c3 = 7 c2 - 14 c1 + 8 c0 c3 = 7 c2 - 14 c + 8 c3 - 7 c2 + 14 c - 8 = 0 The last term suggests we try c = 1, -1, 2, -2, 4, -4, 8, -8 Trying c = 1 we find that it is a solution. Thus, "c - 1" is a factor. Dividing "c3 - 7 c2 + 14 c - 8" by "c - 1": c3 - 7 c2 + 14 c - 8 = 0 (c2 - 6c + 8)(c - 1) = 0 (c-4)(c-2)(c-1) = 0 c = 4, 2, or 1 Because there are multiple values of c, we need to use linear independence for completeness. f(x) = cx f(x) = p 4x + q 2x + r 1x f(x) = p 4x + q 2x + r where p, q and r are arbitrary constants. To recap, the general solution to: f(x) = 7 f(x-1) - 14 f(x-2) + 8 f(x-3) is: f(x) = p 4x + q 2x + r where p, q and r are arbitrary constants. However, we have three initial conditions to care about. Substituting, we obtain: 0 = p + q + r 1 = 2p + sqrt(2) q + r 3 = 4p + 2q + r Solving, we obtain: p = 1, q = 0, r = -1 Therefore, the final solution is: f(x) = 4x - 1 Which can be easily verified to comply with all conditions.

	Subject	Author	Date
	Puzzle Thoughts	K Sengupta	2023-02-16 08:04:16
	re: Solution	hoodat	2007-05-05 10:32:46
	Solution	Old Original Oskar!	2007-05-04 17:11:26