That isn't possible. The sum of three odd numbers will always be odd. You can make the sum of 3 prime numbers equal to 32 if one of them is 2 (which is not odd).
It's not possible to find five odd numbers that sum to 32, as the sum of odd numbers is always odd. Since 32 is an even number, the sum of any combination of odd numbers cannot equal it. Therefore, there are no five odd numbers that can achieve a total of 32.
0,13,19
2, 13, and 17, but 2 is not a prime number
29+3 = 32 and 29+7 = 36
I am not sure there is such a classification. It cannot be odd/even Odd numbers: 52 - 22 = 21 Even numbers: 52 - 32 = 16 It cannot be prime/composite Prime: 32 - 22 = 5 Composite: 52 - 22 = 21
It's not possible to find five odd numbers that sum to 32, as the sum of odd numbers is always odd. Since 32 is an even number, the sum of any combination of odd numbers cannot equal it. Therefore, there are no five odd numbers that can achieve a total of 32.
number of pairs of odd numbers whose sum is 32: 8pairs of odd numbers whose sum is 32:1, 313, 295, 277, 259, 2311, 2113, 1915, 17
37
It is: 29+3 = 32
0,13,19
Two prime numbers that have a sum of 32 could be 13 + 19 or 29 + 3.
No (Assuming you mean if they are added together).The sum of an odd number (e.g. 5) of odd numbers will always be odd!
Except for 2, all other prime numbers are odd. The sum of any two odd numbers is even. Therefore, the prime number 2 will evenly divide the sum of any other two prime numbers. Here are some examples to illustrate this: 3 + 5 = 8 which is evenly divisible by 2 13 + 19 = 32 which is evenly divisible by 2 43 + 47 = 90 which is evenly divisible by 2
13 and 19
9801 * The sum of the first two odd numbers (1+3) is 4, or 22 * The sum of the first three odd numbers (1+3+5) is 9, or 32 * The sum of the first four odd numbers (1+3+5+7) is 16, or 42 * ...and so on So the sum of the first 99 odd numbers, using the pattern above, would be 992 or 9801.
2, 13, and 17, but 2 is not a prime number
The Answer is 15+17=32