# Palindrome Products Detect palindrome products in a given range. A palindromic number is a number that remains the same when its digits are reversed. For example, `121` is a palindromic number but `112` is not. Given the definition of a palindromic number, we define a palindrome _product_ to be the product `c`, such that `a * b = c`, where `c` is a palindromic number and `a` and `b` are integers (possibly, but _not_ necessarily palindromic numbers). For example, the palindromic number 9009 can be written as the palindrome product: `91 * 99 = 9009`. It's possible (and indeed common) for a palindrome product to be the product of multiple combinations of numbers. For example, the palindrome product `9` has the factors `(1, 9)`, `(3, 3)`, and `(9, 1)`. Write a program that, given a range of integers, returns the smallest and largest palindromic product within that range, along with all of its factors. ## Example 1 Given the range `[1, 9]` (both inclusive)... The smallest product is `1`. Its factors are `(1, 1)`. The largest product is `9`. Its factors are `(1, 9)`, `(3, 3)`, and `(9, 1)`. ## Example 2 Given the range `[10, 99]` (both inclusive)... The smallest palindrome product is `121`. Its factors are `(11, 11)`. The largest palindrome product is `9009`. Its factors are `(91, 99)` and `(99, 91)`. ## Setup Go through the setup instructions for JavaScript to install the necessary dependencies: http://exercism.io/languages/javascript/installation ## Making the Test Suite Pass Execute the tests with: jasmine .spec.js Replace `` with the name of the current exercise. E.g., to test the Hello World exercise: jasmine hello-world.spec.js In many test suites all but the first test have been skipped. Once you get a test passing, you can unskip the next one by changing `xit` to `it`. ## Source Problem 4 at Project Euler [http://projecteuler.net/problem=4](http://projecteuler.net/problem=4) ## Submitting Incomplete Solutions It's possible to submit an incomplete solution so you can see how others have completed the exercise.