It is the set of Irrational Numbers.
* * * * *
Though, pedantically, only if the "universal" set is the set of real numbers. A more complete answer could be all numbers in the complex field of the form x + yiwhere y≠
0 or y = 0 and x is irrational.
Rational?
They are a sequence of numbers and each sequence has a term number.
Found out it is an "OR"statement
Infinity.
Yes, that is the definition of a rational number. The term "rational" is derived from the same root as "ratio": a rational number is a ration of two integers - otherwise known as a fraction.
It is a trivial difference. If you multiply every term in the equation with rational numbers by the common multiple of all the rational numbers then you will have an equation with integers.
Rational?
The math term greater means bigger in numerical size or larger in order of the numbers.
They are a sequence of numbers and each sequence has a term number.
Yes. Any number that is not rational would not be called 'rational', and so it would not be included in the bag of 'rational numbers'. So all the numbers that are in there must be rational ones.
The use of numbers in simple math operations is "arithmetic."
Term- a number, a variable, or a product of numbers and variables.
The range
Found out it is an "OR"statement
Infinity.
Yes, that is the definition of a rational number. The term "rational" is derived from the same root as "ratio": a rational number is a ration of two integers - otherwise known as a fraction.
The number repeated the most in a set of numbers