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I have to show by induction that

if w < w_i then Opt(i,w) = Opt(i-1,w) , else Opt(i,w) = max{ Opt(i-1,w), Opt( i-1, w - w_i) + w_i) }

produces the optimal solution for the Knapsack Problem (Dynamic Programming approach)

I know how mathematical induction works, but I'm stuck on how to do it with this exercise. Especially the inductive step. As base case, I imagine, I only got one element and as long as the weight of this element is smaller or equal the capacity of my knapsack, I'll take it. Otherwise I leave it.

Any help would be greatly appreciated! Thank you

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A problem has "optimal substructure" if it can be broken down into subproblems and you can find the optimal solutions to subproblems using recursion. Your problem has optimal substructure (As does any DP solvable problem!). Proof that your program will indeed result in the optimal solution, using induction, can be found here.

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