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5000 (five thousand) is the natural number following 4999 and preceding 5001. Five thousand is, at the same time, the largest isogrammic numeral, and the smallest number that contains every one of the five vowels (a, e, i, o, u) in the English language .
The $64,000 Question was a British quiz show based on the American format of the same name.The show originally ran from 19 May 1956 to 18 January 1958 produced by ATV and was originally hosted by Jerry Desmonde, and called simply The 64,000 Question with the top prize initially being 64,000 sixpences (£1,600), later doubling to 64,000 shillings (£3,200).
σ x should usually be quoted to only one or two significant figures, as more precision is unlikely to be reliable or meaningful: 1.79 ± 0.06 (correct), 1.79 ± 0.96 (correct), 1.79 ± 1.96 (incorrect). The digit positions of the last significant figures in x best and σ x are the same, otherwise the consistency is lost. For example, "1.79 ± ...
The $64,000 Question was created by Louis G. Cowan, formerly known for radio's Quiz Kids and the television series Stop the Music and Down You Go.Cowan drew the inspiration for the name from Take It or Leave It, and its $64 top prize offering.
One billion years may be called an eon in astronomy or geology. Previously in British English (but not in American English), the word "billion" referred exclusively to a million millions (1,000,000,000,000). However, this is not common anymore, and the word has been used to mean one thousand million (1,000,000,000) for several decades. [5]
Toggle Selected numbers in the range 50001–59999 subsection. 1.1 50001 to 50999. ... 55459 = one of five remaining Seventeen or Bust numbers in the Sierpinski problem;
Thus, an ordinal number will be a well-ordered set; and every well-ordered set will be order-isomorphic to exactly one ordinal number. For each well-ordered set T , a ↦ T < a {\displaystyle a\mapsto T_{<a}} defines an order isomorphism between T and the set of all subsets of T having the form T < a := { x ∈ T ∣ x < a } {\displaystyle T ...
The 52 possible solutions, counted by the Bell number B 5, were recorded by 52 different diagrams, which were printed above the chapter headings in some editions of The Tale of Genji. [ 26 ] [ 30 ] In Srinivasa Ramanujan 's second notebook, he investigated both Bell polynomials and Bell numbers. [ 31 ]