No, the product of two positive mixed numbers can never be less than one.
No, it cannot be.
No, that is not possible.
If ever you have an odd number of negative numbers, the product will always be a negative number. So the answer to this question is negative.
There are no two "last" composite numbers. Just as with prime numbers, and all numbers, they go on for ever and ever and ever and ever ... ... .
No.
no
Consider the absolute values (the numerical values ignoring the signs) of the two numbers. If these are equal then the sum is equal; otherwise the sum takes the sign of which ever number has the larger absolute value.
No. A mixed number must be greater than 1, and two numbers that are greater than one that are multiplied together end up being greater that either number by itself.
If ever you have an odd number of negative numbers, the product will always be a negative number. So the answer to this question is negative.
There are no two "last" composite numbers. Just as with prime numbers, and all numbers, they go on for ever and ever and ever and ever ... ... .
No.
The LCM for any pair of natural numbers can be as big as their product.
Yes. Example: 11/2 x 11/3 = 2
When ever there is any number or numbers in a / / that means that it is positive so the answer is positive five.
Real numbers are composed of rational and irrational numbers. Integers are part of the group (set) of rational numbers. And the integers are composed of the counting numbers (1, 2, 3, ...) and their negative counterparts (-1, -2, -3, ...). Oh, almost forgot. There is one more integer that is neither positive or negative. It's the number zero. Zero is an integer (neither positive or negative). The smallest real number ever is zero.
Yes and no - an atom has no charge - it is neutral because it contains equal numbers of positive and negative charges. A neutron has no charge at all, ever.
Yes, the domain(input) would be all natural numbers (numbers greater or equal to zero). The range (output) would be all real numbers. -- Not only natural numbers would be considered part of this domain, all negative numbers are also reasonable inputs to this function, as any negative number multiplied by itself would produce a positive number..... The output (range) would therefore be all positive real numbers......
no
no