There is no set of two consecutive integers having a product of 14. Product means the result of multiplication.
13 and 14
13 x 14 = 182
13 and 14. Also negative 13 and negative 14.
14*16 = 224
None. But, 14 is between the two odd integers 13 and 15.
13 and 14
13 x 14 = 182
-13*-14 = 182
13 and 14. Also negative 13 and negative 14.
14*16 = 224
Call the smaller of the two consecutive integers n. Then, from the problem statement: n(n+2) = 168, or n2 + 2n - 168 = 0, or (n + 14)(n - 12) = 0, which is true when n = -14 or +12. Therefore, the two integers sought are 12 and 14.
None. But, 14 is between the two odd integers 13 and 15.
-15 and -14.
The integers are 13 and 14.
The numbers are 13 and 14.
Yeah, those two integers don't exist 12 x 13 is 156 - too low the very next integers or too high 13 x 14 is 182 - too high if it helps 12 x 14 is 168, but these are not consecutive
The sum of the squares of two consecutive positive even integers is 340. Find the integers.