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• Kummer's_theorem abstract "In mathematics, Kummer's theorem on binomial coeffients gives the highest power of a prime number p dividing a binomial coefficient. In particular, it asserts that given integers n ≥ m ≥ 0 and a prime number p, the maximum integer k such that pk divides the binomial coefficient is equal to the number of carries when m is added to n − m in base p.The theorem is named after Ernst Kummer, who proved it in the paper Kummer (1852).".
• Kummer's_theorem wikiPageID "33758554".
• Kummer's_theorem wikiPageRevisionID "585779104".
• Kummer's_theorem hasPhotoCollection Kummer's_theorem.
• Kummer's_theorem title "Kummer's theorem".
• Kummer's_theorem urlname "KummersTheorem".
• Kummer's_theorem subject Category:Theorems_in_number_theory.
• Kummer's_theorem type Abstraction100002137.
• Kummer's_theorem type Communication100033020.
• Kummer's_theorem type MathematicalTheorems.
• Kummer's_theorem type Message106598915.
• Kummer's_theorem type Proposition106750804.
• Kummer's_theorem type Statement106722453.
• Kummer's_theorem type Theorem106752293.
• Kummer's_theorem type TheoremsInNumberTheory.
• Kummer's_theorem comment "In mathematics, Kummer's theorem on binomial coeffients gives the highest power of a prime number p dividing a binomial coefficient. In particular, it asserts that given integers n ≥ m ≥ 0 and a prime number p, the maximum integer k such that pk divides the binomial coefficient is equal to the number of carries when m is added to n − m in base p.The theorem is named after Ernst Kummer, who proved it in the paper Kummer (1852).".
• Kummer's_theorem label "Kummer's theorem".
• Kummer's_theorem sameAs m.0hhw827.
• Kummer's_theorem sameAs Q6443980.
• Kummer's_theorem sameAs Q6443980.
• Kummer's_theorem sameAs Kummer's_theorem.
• Kummer's_theorem wasDerivedFrom Kummer's_theorem?oldid=585779104.
• Kummer's_theorem isPrimaryTopicOf Kummer's_theorem.