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Take any negative integers, say -5 and -10, their sum is -15 which is smaller than both of them. We could have used 0 as well, so I should have said any non-positive integers. To see that is does not work with positive integers, take 5 and 10 whose sum is 15 which is BIGGER than either one.
No.
The integers are -11 and -10.
17 (odd integer) + 19 (odd integer) = 36 17 and 19 are consecutive odd integers.
That can never happen, and there's no solution.
Take any negative integers, say -5 and -10, their sum is -15 which is smaller than both of them. We could have used 0 as well, so I should have said any non-positive integers. To see that is does not work with positive integers, take 5 and 10 whose sum is 15 which is BIGGER than either one.
An algebraic integer is a number which is a root of a monic polynomial whose coefficients are integers.
The integers are 20 and 22.
No.
17 (odd integer) + 19 (odd integer) = 36 17 and 19 are consecutive odd integers.
The integers are -11 and -10.
no solution. If you solve for x (where x is the first integer) the answer is a fraction, which is not an integer.
That can never happen, and there's no solution.
No possible solution.The sum of any two odd integers is an even integer.
Two positive integers whose sum is 14 includes 6 and 8
17 , 19 , 21 and 23 are the odd integers whose sum is 80 and the least integer is 17
They will be the same absolute value with opposite signs. They don't even have to be integers.