The term "irrational numbers forming dense subset" refers to a set of irrational numbers that are infinitely close to each other, with no gaps or empty spaces between them. This means that any real number can be approximated by an irrational number in the subset.
Irrational numbers are formed into a dense subset by taking a set of irrational numbers and arranging them in a way that there are no gaps between them. This requires the numbers to be infinitely close to each other, with no empty spaces in between.
The significance of irrational numbers forming a dense subset is that it shows the completeness of the real number system. It means that there are no "holes" or gaps in the number line and that any real number can be approximated by an irrational number. This has important implications in mathematics, particularly in the study of limits and continuity.
No, rational numbers cannot form a dense subset. This is because there will always be gaps or empty spaces between rational numbers, no matter how close they are to each other. This is because rational numbers can be expressed as fractions, and there will always be infinitely many fractions between any two rational numbers.
An example of a set of irrational numbers forming a dense subset is the set of all square root of prime numbers. This set includes numbers such as √2, √3, √5, √7, and so on. These numbers are all irrational and are infinitely close to each other, forming a dense subset of the real number line.