false
There are an infinite number of rational numbers so it would be foolish to even try to list them.
It is a list of three rational numbers, in decimal form.
4/8
Please don't write "the following" if you don't provide a list. This is the situation for some common number sets:* Whole numbers / integers do NOT have this property. * Rational numbers DO have this property. * Real numbers DO have this property. * Complex numbers DO have this property. * The set of non-negative rational numbers, as well as the set of non-negative real numbers, DO have this property.
false
-- There's an infinite number of rational numbers. -- There's an infinite number of irrational numbers. -- There are more irrational numbers than rational numbers. -- The difference between the number of irrational numbers and the number of rational numbers is infinite.
There are an infinite number of rational numbers so it would be foolish to even try to list them.
6.02 - 5.3 = 0.72A list of three positive rational numbers.
It is a list of three rational numbers.
A list consisting of two rational numbers.
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It is a list of three rational numbers, in decimal form.
4/8
There are infinitely many rational numbers so it is not possible to list them. You can think of them as the set of all ratios of the form p/q where p and q and integers and q > 0.
Please don't write "the following" if you don't provide a list. Any rational number will work in this case. Any irrational number will not.
There's an infinite list of rational numbers that are all between 2.1 and 3.9 .Here are a few of them:2.112.122.22.32.42.62.72.92.992.999999999993.0..etc.Any number that you can completely write down on paper is rational.