It is the set that can be defined as {2n-1: where n is any integer}.
-1, -3, -5 and so on.
Integers, odd integers, negative integers, odd negative integers, rational numbers, negative rational numbers, real numbers, negative real numbers, square roots of 1, etc.
negative.
Since there are an odd number of negative numbers, the result will be negative.
1 is an odd number
Negative numbers to even powers will be positive, negative numbers to odd powers will be negative. The answer is -16,384.
Decimal are not. But negative numbers can be odd or even.
Any set of odd numbers, yes.
Then the result is also odd. The result is negative.
The product of an odd number of negative numbers will be negative.
Integers, odd integers, negative integers, odd negative integers, rational numbers, negative rational numbers, real numbers, negative real numbers, square roots of 1, etc.
negative.
Since there are an odd number of negative numbers, the result will be negative.
1 is an odd number
Negative numbers to even powers will be positive, negative numbers to odd powers will be negative. The answer is -16,384.
Yes, negative numbers can be either odd or even, just like positive numbers. And odd positive number can be made into an odd negative number, by reversing the sign. So for example, 5 and -5 are both odd.
The GCF of any set of odd numbers is odd because odd numbers don't have any even factors.
In that case, the result is also odd.