From c5fd4f339a1f9c1c8774b4bb87710861ab501936 Mon Sep 17 00:00:00 2001 From: bnewbold Date: Sun, 24 Jan 2010 08:27:27 +0000 Subject: fixes --- math/numbers.page | 33 +++++++++++++++++---------------- 1 file changed, 17 insertions(+), 16 deletions(-) (limited to 'math') diff --git a/math/numbers.page b/math/numbers.page index 6481c75..3e9473e 100644 --- a/math/numbers.page +++ b/math/numbers.page @@ -1,27 +1,25 @@ ---- -format: markdown -categories: math -toc: no -... +Numbers +========== -# Numbers - -*References: most of the definitions and notation in the section are based on [rudin] or [meserve]* +*References: most of the definitions and notation in the section are based on [^rudin] or [^meserve]* incommensurable - objects are incommensurable when their ratio isn't rational +: objects are incommensurable when their ratio isn't rational -## Real Numbers +Real Numbers +------------- The *real numbers* are defined via Dedakind cuts in [^rudin], or [^meserve] (p1-12). -## Complex Numbers +Complex Numbers +----------------- The *complex numbers* are constructed as an ordered pair of real numbers. -## Algebraic and Transendental Numbers +Algebraic and Transcendental Numbers +-------------------------------------- *Algebraic numbers* are solutions of polynomials, such as x in $a_0 x^n + a_1 x^{n-1} + a_2 x^{n-2} + ... a_n = 0$, where all a are @@ -34,12 +32,15 @@ Some algebraic numbers aren't real (such as $i = \sqrt{-1}$). They can be rational or irrational. All transcendental numbers are irrational; some are not real. -Exersize: is the square root of 5 algebraic or transcendental? +Exercise: is the square root of 5 algebraic or transcendental? + +$e$ +---------- -## e $e = \lim_{x \rightarrow 0} (1+x)^{\frac{1}{x}}$ -## Infinities +Infinities +---------- *aleph-zero* ($\aleph_0$) is the countably infinite set. @@ -47,6 +48,6 @@ Positive integers, integers, and rational numbers are all countably infinite. It is unproven that the real numbers are *aleph-one* ($\aleph_1$). -[^rudin] **Principles of Mathematical Analysis (3rd ed)**, by Walter Rudin. McGraw-Hill, 1976 +[^rudin]: **Principles of Mathematical Analysis (3rd ed)**, by Walter Rudin. McGraw-Hill, 1976 [^meserve]: **Fundamental Concepts of Algebra**, by Bruce Meserve. -- cgit v1.2.1