Mathematics, 13.11.2019 20:31 amandasantiago2001
Here is a proof of the theorem with at least one incorrect step. suppose m is any even integer and n is any odd integer. if m · n is even, then by definition of even there exists an integer r such that m · n = 2r. by definition of even and odd, there exist integers p and q such that m = 2p and n = 2q + 1. therefore, by substitution, the product m · n = (2p)(2q + 1) = 2r. but r is an integer by the statement in step 2. thus m · n is two times an integer, so by definition of even, the product is even. identify the mistakes in the proof. (select all that apply.)
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Here is a proof of the theorem with at least one incorrect step. suppose m is any even integer and n...
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