The product (result of multiplication) is always odd.
For example:
3*3=9
5*5=25
7*7=49
The product of two odd numbers is always odd.
The product of odd number is always odd.
The two odd numbers that have a product of 141 are 3 and 47. This is because 3 multiplied by 47 equals 141, and both numbers are odd.
The conjecture about the product of two odd numbers is that the product will always be odd. This is because an odd number can be expressed in the form (2n + 1) (where (n) is an integer), and when two such expressions are multiplied, the resulting product simplifies to (4mn + 2m + 2n + 1), which is also of the form (2k + 1), confirming it is odd. Thus, the product of any two odd numbers is always odd.
The product of two odd numbers is never even.
The product of two odd numbers is always an odd number.
The product of two odd numbers is always odd.
No such numbers exist; the product of two odd numbers is always odd.
The product of two odd numbers is always odd.
Any two odd numbers will have an odd product and an even sum.
The product of odd number is always odd.
I guess you mean "product" - the product of two odd numbers is odd. (For example, 3x3=9, 5x3=15, etc.
The two odd numbers that have a product of 141 are 3 and 47. This is because 3 multiplied by 47 equals 141, and both numbers are odd.
The conjecture about the product of two odd numbers is that the product will always be odd. This is because an odd number can be expressed in the form (2n + 1) (where (n) is an integer), and when two such expressions are multiplied, the resulting product simplifies to (4mn + 2m + 2n + 1), which is also of the form (2k + 1), confirming it is odd. Thus, the product of any two odd numbers is always odd.
The product of two odd numbers is never even.
The product of any two odd numbers is an odd number. The product means that it is the outcome of a multiplication. 3 * 5 = 15, 5 * 7 = 35.
no