If the product of 2 numbers is one, than those 2 numbers are recipricals
If zero is counted as a whole number, then the first three whole numbers are zero, one and two and the product of ANY series containing zero is ZERO. If, on the other hand, only non-zero numbers are considered, then the series is one, two and three and the product is six.
One.
Natural numbers are:counting numbersnon-negative, non-zero integers; positive integersnon-zero whole numbers; positive whole numbers
I'm not sure what you want. You can have 5 and 2 and any non-zero whole number. You can have 10 and any two non-zero whole numbers. You can have any even number, then any multiple of 5, then any non-zero whole number. Or any multiple of ten, then any two non-zero whole numbers. I think I covered the possibilities.
235 has 3 significant figures.This is because all three digits are non-zero numbers, and all non-zero numbers are considered significant.
A non-zero whole number.
If zero is counted as a whole number, then the first three whole numbers are zero, one and two and the product of ANY series containing zero is ZERO. If, on the other hand, only non-zero numbers are considered, then the series is one, two and three and the product is six.
Positive, for all non-zero real numbers.
Non-Zero Real Numbers are infact complex conjugate numbers. They are negative prime numbers.
Non zero whole number, with a magnitude greater than any of the numbers.
A fraction is a mathematical function whose domain is the Cartesian product of p, an element of a set of numbers and q, an element of a set of non-zero numbers which does not evenly divide into p, such that the output of the function is a number r, such that r = p/q.
Let q be a non-zero rational and x be an irrational number.Suppose q*x = p where p is rational. Then x = p/q. Then, since the set of rational numbers is closed under division (by non-zero numbers), p/q is rational. But that means that x is rational, which contradicts x being irrational. Therefore the supposition that q*x is rational must be false ie the product of a non-zero rational and an irrational cannot be rational.
The integers are the numbers {0, 1, 2, 3, ...} and the numbers {-1, -2, -3, 4, ...}. That is, they are all of the "whole" numbers, their negatives, and zero. A non-zero integer is any integer except 0.
A non-example of a product is where it equals 0. This is called zero-product property. This is the property of two non-zero elements being zero. In chemistry, it would be any substance which is a reactant.
Yes, it is."The name of the product of a non-zero number and its reciprocal is 1" is TAUTOLOGY.
The concept of LCM is not applicable to fractions. This is because all numbers are evenly divisible by all non-zero numbers and all numbers are multiples of all non-zero numbers.
This is not strictly true, because an absolute value, and hence the product of two absolute values can be zero. It is, therefore true to say that the product of two absolute values is always non-negative. An absolute value of a number is, by definition, non-negative. And by the definition of multiplication, the product of two non-negative numbers in non-negative.