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You are given an unsorted array of n integers, and you would like to find if there are any duplicates in the array (i.e. any integer appearing more than once). The complexity that i've found O (N^2) = N * ((N + 1)/2)

If we limit the input data in order to achieve some best case scenario , how can you limit the input data to achieve a better Big O complexity? Describe an algorithm for handling this limited data to find if there are any duplicates. What is the Big O complexity?

Let says we have an already sorted array of size 2 (2 values in the array). Therefore we wouldn't need to implement any loops for sorting. If both of the numbers in the array are duplicate, we therefore have an O(1) complexity which would be better than any other complexity. Remember! We are looking for the best case-complexity, not worse! So we have in this case achieved the best case complexity remembering that in the best case; the algorithm does not have to work on all data as in the case of ‘best-case’, we can pretty much present the “cheat” version of an algorithm which may would world extremely fast on some data and may work slower or not work at all, on some data. Our algorithm has 2 elements and we are looking for the duplicate which simple means that the duplicate area would be presented in a single search as we are only comparing 2 elements and as we know, whether the elements match or don’t, it will be determined via the use of a single comparison which is constant and therefore the best case complexity is O(1). I’ve implemented a variety of algorithms, some of which makes sense and others which don’t. I would be grateful for possible solutions, answers etc. as I know there are many possibilities but I am struggling at the moment. Thank you for your time