Superabundant number

A superabundant number is a type of natural number. They were defined by Leonidas Alaoglu and Paul Erdős in 1944.

Definition

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Any natural number n is called superabundant when a certain equation is true.

In this equation, m is every integer less than n. σ is the sum of every positive divisor of that number.

An example would be to use the number 9. For every number less than 8, the sigma is 1, 3, 4, 7, 6, 10, 8 and 16. (σ(m))/m is 16/9. (σ(n))/n is equal to 13/9. 13/9 is less than 16/9. This makes 9 not a superabundant number

The first few superabundant numbers are 1, 2, 4, 6, 12, 24, 36, 48, 60, 120, ... (sequence A004394 in the OEIS).

Properties

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Leonidas Alaoglu and Paul Erdős proved that if n is superabundant, then there is a k and a1, a2, ..., ak such that

where pi is the i-th prime number, and

Basically, they proved that if a number is superabundant, the exponent of a larger prime number is never bigger than a smaller prime number during prime decomposition(the process of a composite number become smaller prime numbers). All primes from 0 to are also factors of n. The equation says that a superabundant number has to be an even integer. It also is a multiple of the k-th primorial

Superabundant numbers are like highly composite numbers. Not all superabundant numbers are highly composite numbers, though.

Alaoglu and Erdős observed that all superabundant numbers are also highly abundant.

References

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  • Briggs, Keith (2006), "Abundant numbers and the Riemann hypothesis", Experimental Mathematics, 15 (2): 251–256, doi:10.1080/10586458.2006.10128957, S2CID 46047029.
  • Akbary, Amir; Friggstad, Zachary (2009), "Superabundant numbers and the Riemann hypothesis", American Mathematical Monthly, 116 (3): 273–275, doi:10.4169/193009709X470128.
  • Alaoglu, Leonidas; Erdős, Paul (1944), "On highly composite and similar numbers", Transactions of the American Mathematical Society, 56 (3), American Mathematical Society: 448–469, doi:10.2307/1990319, JSTOR 1990319.

Other websites

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