User:Leigh.Samphier/P-adicNumbers

$p$-adic Numbers
Let $\struct {R, \norm{\,\cdot\,}}$ be a normed division ring with zero $0_R$ and unity $1_R$.

Let $\struct {R, \norm{\,\cdot\,}}$ be a non-Archimedean normed division ring with zero $0_R$ and unity $1_R$.

Let $d$ be the metric induced by the norm $\norm{\,\cdot\,}$.

Let $\tau$ be the topology induced by the norm $\norm{\,\cdot\,}$.

Let $\norm {\,\cdot\,}_p$ be the $p$-adic norm on the rationals $\Q$ for some prime $p$.

Let $p$ be a prime number.

Let $\struct {\Q_p, \norm {\,\cdot\,}_p}$ be the $p$-adic numbers.

Cleanup/Refactor
Leigh.Samphier/Sandbox/Definition:Quotient Ring of Cauchy Sequences

Leigh.Samphier/Sandbox/Quotient Ring of Cauchy Sequences is Division Ring

Leigh.Samphier/Sandbox/Quotient Ring of Cauchy Sequences is Division Ring/Corollary 1

Leigh.Samphier/Sandbox/Definition:Induced Norm on Quotient of Cauchy Sequences

Leigh.Samphier/Sandbox/Quotient Ring of Cauchy Sequences is Normed Division Ring

Leigh.Samphier/Sandbox/Quotient Ring of Cauchy Sequences is Normed Division Ring/Corollary 1

Leigh.Samphier/Sandbox/Quotient Ring of Cauchy Sequences is Normed Division Ring/Lemma 1

Leigh.Samphier/Sandbox/Quotient Ring of Cauchy Sequences is Normed Division Ring/Lemma 2

Leigh.Samphier/Sandbox/Quotient Ring of Cauchy Sequences is Normed Division Ring/Lemma 3

Leigh.Samphier/Sandbox/Quotient Ring of Cauchy Sequences is Normed Division Ring/Lemma 4

Leigh.Samphier/Sandbox/Definition:P-adic Number replace Definition:P-adic Number

Leigh.Samphier/Sandbox/Definition:P-adic Numbers as Quotient of Cauchy Sequences replace Definition:P-adic Numbers as Quotient of Cauchy Sequences and Definition:P-adic Number/Quotient of Cauchy Sequences in P-adic Norm

Leigh.Samphier/Sandbox/P-adic Numbers Constructed as Quotient of Cauchy Sequences

Delete Definition:P-adic Number/P-adic Norm Completion of Rational Numbers Delete Definition:P-adic Number/Quotient of Cauchy Sequences in P-adic Norm

Definition:P-adic Metric/P-adic Numbers

Definition:P-adic Norm

Definition:P-adic Norm/P-adic Numbers

Continuing Svetlana Katok Book

 * : $\S 1.4$ The field of $p$-adic numbers $\Q_p$
 * P-adic Norm of P-adic Expansion is determined by First Nonzero Coefficient

Leigh.Samphier/Sandbox/Inclusion Mapping on Normed Division Subring is Distance Preserving Monomorphism

Leigh.Samphier/Sandbox/Complete Normed Division Ring is Completion of Dense Subring

Leigh.Samphier/Sandbox/Distance-Preserving Homomorphism Preserves Norm

Leigh.Samphier/Sandbox/Element of Completion is Limit of Sequence in Normed Division Ring

Leigh.Samphier/Sandbox/Element of Completion is Limit of Sequence in Normed Division Ring/Corollary

Leigh.Samphier/Sandbox/Normed Division Ring Determines Norm on Completion

Leigh.Samphier/Sandbox/Normed Division Ring Determines Norm on Completion/Corollary

Leigh.Samphier/Sandbox/P-adic Norm of p-adic Number is Power of p

Leigh.Samphier/Sandbox/P-adic Norm of p-adic Number is Power of p/Lemma

Leigh.Samphier/Sandbox/P-adic Norm of p-adic Number is Power of p/Proof 1

Leigh.Samphier/Sandbox/P-adic Norm of p-adic Number is Power of p/Proof 2

Leigh.Samphier/Sandbox/P-adic Expansion Representative of P-adic Number is Unique

Leigh.Samphier/Sandbox/Representative of P-adic Sum

Leigh.Samphier/Sandbox/Representative of P-adic Product

Leigh.Samphier/Sandbox/Cauchy Sequence Represents P-adic Number

Leigh.Samphier/Sandbox/Constant Sequence Represents Rational in P-adic Numbers

Continuing Fernando Q. Gouvea Book

 * : $\S 3.3$ Exploring $\Q_p$, Lemma $3.3.8$
 * P-adic Number is Limit of Unique P-adic Expansion

Every P-adic Number is Limit of P-adic Expansion
Leigh.Samphier/Sandbox/Sequence Converges in Completion iff Sequence Represents Limit

Leigh.Samphier/Sandbox/Distinct P-adic Expansions Converge to Distinct P-adic Numbers

Leigh.Samphier/Sandbox/P-adic Number is Limit of Unique P-adic Expansion - Complete the uniqueness

Characterisation of P-adic Units
Leigh.Samphier/Sandbox/Set of P-adic Units is Unit Sphere

Leigh.Samphier/Sandbox/Characterization of Rational P-adic Units

Leigh.Samphier/Sandbox/P-adic Expansion of P-adic Units