Rational And Irrational Numbers

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Rational and irrational numbers.
a
Definition. A rational number is one that can be written in the form
where a and b are
b
integers and b = 0. In this representation, a and b can be chosen to be relatively prime.
Then the fraction is said to be in lowest terms. The set of all rational numbers is denoted by
Q, the set of real numbers by IR. Real numbers that are not rational are called irrational.
Basic fact. A real number is rational if and only if its decimal expansion (or expansion in
any base) is periodic.
Less trivial fact. Any number of the form
n, where k and n are natural numbers larger
k
than 1 and n is not a perfect kth power, is irrational.
Further definitions. A number that satisfies an equation of the form
n
a
+ a
x + · · · + a
x
= 0,
0
1
n
where a
, a
, . . ., a
are integers and a
= 0, is called algebraic. A number that is not
n
n
0
1
algebraic is called transcendental.
Famous transcendentality results. The numbers e and π are transcendental.
a
Rational root theorem. If a
, a
, . . ., a
are integers and
is in lowest terms and is a
n
0
1
b
root of the equation
n
a
+ a
x + · · · + a
x
= 0,
0
1
n
then a|a
and b|a
.
n
0
Examples.
1. Prove that
2 +
3 is irrational.
2. Prove that there is no set of integers except 0, 0, 0 for which m + n
2 + p
3 = 0.
3. Suppose a real number α satisfies cos(απ) = 1/3. Prove that α is irrational.
a
4. Let
(in lowest terms) represent a rational number in the interval (0, 1). Prove that
b
a
2
1
>
.
b
2
4b
2
5. Prove the following classical fact: if α ∈ Q, then the sequence ({nα} : n ∈ IN) is
periodic; if α ∈ IR \ Q, then the sequence ({nα} : n ∈ IN) is dense in (0, 1). Here {x}
denotes the fractional part of x:
{x} := x
x .
6. Prove Beatty’s theorem: If α and β are positive irrational numbers satisfying 1/α+1/β =
1, then the sequiences ( nα : n ∈ IN) and ( nβ : n ∈ IN) together include every natural
number exactly once.

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