RubygemsResearch

Sha256: 287b5cbb42699e6c7334c0c36c559a1e9f5c6933bc87a7f606afdbd3257db278

Contents?: true

Size: 1.85 KB

Versions: 63

Compression:

Stored size: 1.85 KB

# Perfect Numbers

Determine if a number is perfect, abundant, or deficient based on
Nicomachus' (60 - 120 CE) classification scheme for natural numbers.

The Greek mathematician [Nicomachus](https://en.wikipedia.org/wiki/Nicomachus) devised a classification scheme for natural numbers, identifying each as belonging uniquely to the categories of **perfect**, **abundant**, or **deficient** based on their [aliquot sum](https://en.wikipedia.org/wiki/Aliquot_sum). The aliquot sum is defined as the sum of the factors of a number not including the number itself. For example, the aliquot sum of 15 is (1 + 3 + 5) = 9

- **Perfect**: aliquot sum = number
  - 6 is a perfect number because (1 + 2 + 3) = 6
  - 28 is a perfect number because (1 + 2 + 4 + 7 + 14) = 28
- **Abundant**: aliquot sum > number
  - 12 is an abundant number because (1 + 2 + 3 + 4 + 6) = 16
  - 24 is an abundant number because (1 + 2 + 3 + 4 + 6 + 8 + 12) = 36
- **Deficient**: aliquot sum < number
  - 8 is a deficient number because (1 + 2 + 4) = 7
  - Prime numbers are deficient

Implement a way to determine whether a given number is **perfect**. Depending on your language track, you may also need to implement a way to determine whether a given number is **abundant** or **deficient**.

## Running the tests

To run the tests, run the command `busted` from within the exercise directory.

## Further information

For more detailed information about the Lua track, including how to get help if
you're having trouble, please visit the exercism.io [Lua language page](http://exercism.io/languages/lua/about).

## Source

Taken from Chapter 2 of Functional Thinking by Neal Ford. [http://shop.oreilly.com/product/0636920029687.do](http://shop.oreilly.com/product/0636920029687.do)

## Submitting Incomplete Solutions
It's possible to submit an incomplete solution so you can see how others have completed the exercise.

Version data entries

63 entries across 63 versions & 1 rubygems

Version	Path
trackler-2.2.1.159	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.158	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.157	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.156	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.155	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.154	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.153	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.152	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.151	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.150	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.149	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.148	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.147	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.146	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.145	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.144	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.143	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.142	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.141	tracks/lua/exercises/perfect-numbers/README.md
trackler-2.2.1.140	tracks/lua/exercises/perfect-numbers/README.md