Want this question answered?
Choose a nonzero integer for n to show -n can be evaluated as a positive number?
I would do it that way.
The value of any nonzero number raised to the zero power will equal positive one (1).
It means that the number is an integer, AND that it is not zero.
When one of the numbers is positive and the other is negative.
An absolute value must be greater or equal to zero. If the absolute value is known to be nonzero then it must be greater than zero: that is, it must be positive. The product of two (or more) positive numbers must be positive.
The absolute value is always positive.
Positive
Yes. nonzero number: -4, -0.5, 5, pi, 30 absolute number: |-4| = 4 |-0.5| = 0.5 |5| = 5 |pi| = pi |30| = 30
The absolute value of a number equals the number itself if and only if the number is a positive real number (x >= 0 and does not include a nonzero imaginary component).
The absolute value of a number equals the number itself if and only if the number is a positive real number (x >= 0 and does not include a nonzero imaginary component).
The absolute value of a number equals the number itself if and only if the number is a positive real number (x >= 0 and does not include a nonzero imaginary component).
O
Choose a nonzero integer for n to show -n can be evaluated as a positive number?
They are the positive and negative even numbers.
I would do it that way.
A mathematical element that when added to another numeral makes the same numeral