About: Proof of Bertrand's postulate

Property	Value
dbo:abstract	In mathematics, Bertrand's postulate (actually a theorem) states that for each there is a prime such that . It was first proven by Chebyshev, and a short but advanced proof was given by Ramanujan. The following elementary proof was published by Paul Erdős in 1932, as one of his earliest mathematical publications. The basic idea is to show that the central binomial coefficients need to have a prime factor within the interval in order to be large enough. This is achieved through analysis of the factorization of the central binomial coefficients. The main steps of the proof are as follows. First, show that the contribution of every prime power factor in the prime decomposition of the central binomial coefficient is at most . Then show that every prime larger than appears at most once. The next step is to prove that has no prime factors in the interval . As a consequence of these bounds, the contribution to the size of coming from the prime factors that are at most grows asymptotically as for some . Since the asymptotic growth of the central binomial coefficient is at least , the conclusion is that, by contradiction and for large enough , the binomial coefficient must have another prime factor, which can only lie between and . The argument given is valid for all . The remaining values of are by direct inspection, which completes the proof. (en) In matematica, il postulato di Bertrand afferma che per ogni n ≥ 2 esiste un primo p tale che n < p < 2n. La prima dimostrazione fu data da Pafnuty Chebyshev; (it)
dbo:wikiPageExternalLink	http://mizar.org/version/current/html/nat_4.html%23T56 https://web.williams.edu/Mathematics/lg5/Chebyshev.pdf https://sites.math.washington.edu/~mathcircle/circle/2013-14/advanced/mc-13a-w10.pdf
dbo:wikiPageID	254237 (xsd:integer)
dbo:wikiPageLength	10301 (xsd:nonNegativeInteger)
dbo:wikiPageRevisionID	1117107844 (xsd:integer)
dbo:wikiPageWikiLink	dbr:Prime_power dbr:Primorial dbr:Elementary_proof dbr:Mizar_system dbr:Binomial_theorem dbr:Bertrand's_postulate dbc:Theorems_about_prime_numbers dbr:Paul_Erdős dbc:Factorial_and_binomial_topics dbc:Article_proofs dbr:Mathematical_induction dbr:Mathematics dbr:Prime_factor dbr:Concave_function dbr:Theorem dbr:Logarithm dbr:Parity_(mathematics) dbc:Prime_numbers dbr:P-adic_order dbr:Central_binomial_coefficient dbr:Legendre's_formula dbr:Lemma_(mathematics) dbr:Proof_by_contradiction dbr:Mathematical_proof dbr:Interval_(mathematics) dbr:Counterexample dbr:Prime_number dbr:Asymptotic_analysis dbr:Chebyshev dbr:Integer dbr:Natural_number dbr:Real_number dbr:Ramanujan
dbp:title	Bertrand's Postulate (en)
dbp:urlname	BertrandsPostulate (en)
dbp:wikiPageUsesTemplate	dbt:Mathworld dbt:Reflist
dcterms:subject	dbc:Theorems_about_prime_numbers dbc:Factorial_and_binomial_topics dbc:Article_proofs dbc:Prime_numbers
rdf:type	yago:WikicatArticleProofs yago:WikicatMathematicalProofs yago:Abstraction100002137 yago:Argument106648724 yago:Cognition100023271 yago:Communication100033020 yago:DefiniteQuantity113576101 yago:Evidence105823932 yago:Evidence106643408 yago:Indication106797169 yago:Information105816287 yago:MathematicalProof106647864 yago:Measure100033615 yago:Number113582013 yago:Prime113594005 yago:PrimeNumber113594302 yago:Proof105824739 yago:Proof106647614 yago:PsychologicalFeature100023100 yago:WikicatPrimeNumbers
rdfs:comment	In matematica, il postulato di Bertrand afferma che per ogni n ≥ 2 esiste un primo p tale che n < p < 2n. La prima dimostrazione fu data da Pafnuty Chebyshev; (it) In mathematics, Bertrand's postulate (actually a theorem) states that for each there is a prime such that . It was first proven by Chebyshev, and a short but advanced proof was given by Ramanujan. The following elementary proof was published by Paul Erdős in 1932, as one of his earliest mathematical publications. The basic idea is to show that the central binomial coefficients need to have a prime factor within the interval in order to be large enough. This is achieved through analysis of the factorization of the central binomial coefficients. (en)
rdfs:label	Dimostrazione del postulato di Bertrand (it) Proof of Bertrand's postulate (en)
owl:sameAs	freebase:Proof of Bertrand's postulate yago-res:Proof of Bertrand's postulate wikidata:Proof of Bertrand's postulate dbpedia-it:Proof of Bertrand's postulate https://global.dbpedia.org/id/MuGS
prov:wasDerivedFrom	wikipedia-en:Proof_of_Bertrand's_postulate?oldid=1117107844&ns=0
foaf:isPrimaryTopicOf	wikipedia-en:Proof_of_Bertrand's_postulate
is dbo:wikiPageWikiLink of	dbr:Bertrand's_postulate dbr:List_of_mathematical_proofs dbr:List_of_number_theory_topics dbr:Euclid's_theorem dbr:Central_binomial_coefficient dbr:Proofs_from_THE_BOOK dbr:List_of_factorial_and_binomial_topics dbr:Factorial
is foaf:primaryTopic of	wikipedia-en:Proof_of_Bertrand's_postulate