Equidigital number

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In number theory, an equidigital number is a natural number in a given number base that has the same number of digits as the number of digits in its prime factorization in the given number base, including exponents but excluding exponents equal to 1.^[1] For example, in base 10, 1, 2, 3, 5, 7, and 10 (2 × 5) are equidigital numbers Template:OEIS. All prime numbers are equidigital numbers in any base.

A number that is either equidigital or frugal is said to be economical.

Let ${\displaystyle b>1}$ be the number base, and let ${\displaystyle K_b(n)=\lfloor {\log }_{b}n\rfloor +1}$ be the number of digits in a natural number ${\displaystyle n}$ for base ${\displaystyle b}$. A natural number ${\displaystyle n}$ has the prime factorisation

${\displaystyle n=\prod _{\stackrel{p\mid n}{p\text{ prime}}}{p}^{v_p(n)}}$

where ${\displaystyle v_p(n)}$ is the p-adic valuation of ${\displaystyle n}$, and ${\displaystyle n}$ is an equidigital number in base ${\displaystyle b}$ if

${\displaystyle K_b(n)=\sum _{\stackrel{p\mid n}{p\text{ prime}}}{K}_b(p)+\sum _{\stackrel{p^2\mid n}{p\text{ prime}}}{K}_b(v_p(n)).}$

• Every prime number is equidigital. This also proves that there are infinitely many equidigital numbers.

• Extravagant number
• Frugal number
• Smith number

Template:Reflist

• R.G.E. Pinch (1998), Economical Numbers.

Template:Divisor classes Template:Classes of natural numbers