2, 3, 7,
No odd whole numbers have 12 as a factor. 1 and 3 are odd numbers that are factors of 12.
15
3
All nonzero numbers have factors. Some factors are odd numbers. 3 is an odd factor of 12.
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).
To make 20 with three different odd numbers, we can use the numbers 1, 7, and 12. 1 + 7 + 12 = 20. These numbers are odd because they cannot be evenly divided by 2. It's important to note that there are multiple combinations of three odd numbers that can add up to 20, such as 3 + 9 + 8 or 5 + 11 + 4.
1610025 = 3*5*5*21467 has 12 factors and 12 is NOT an odd number.
Because not all odd numbers are multiples of 3 - I have shown you below that this is the case and you can see some multiples of 3 are even and some are odd and you can also see that there are even and odd numbers BETWEEN the multiples of 3. 1 (odd) 2 (even) 1*3 =3 (odd) 4 (even) 5 (odd) 2*3 = 6 (even) 7 (odd) 8 (even) 3*3 = 9 (odd) 10 (even) 11 (odd) 4*3 = 12 (even)
3
There is no set of 3 consecutive odd numbers whose product is 6,873. However, there is a set of 3 consecutive odd numbers whose sum is 6,873: 2289, 2291, and 2293.
No, multiples of 3 are not always odd numbers. A multiple of 3 can be either odd or even, depending on the specific multiple. For example, 3 and 9 are odd multiples of 3, while 6 and 12 are even multiples. Therefore, multiples of 3 include both odd and even numbers.
The set of odd numbers less than 12 includes the numbers 1, 3, 5, 7, 9, and 11. Odd numbers are integers that are not divisible by 2, so they have a remainder of 1 when divided by 2. In this case, all the odd numbers less than 12 fit this criteria and form a finite set.