1.5 KiB
id | title | challengeType | forumTopicId | dashedName |
---|---|---|---|---|
5900f3a51000cf542c50feb8 | Problem 57: Square root convergents | 5 | 302168 | problem-57-square-root-convergents |
--description--
It is possible to show that the square root of two can be expressed as an infinite continued fraction.
By expanding this for the first four iterations, we get:
1 + \\frac 1 2 = \\frac 32 = 1.5
1 + \\frac 1 {2 + \\frac 1 2} = \\frac 7 5 = 1.4
1 + \\frac 1 {2 + \\frac 1 {2+\\frac 1 2}} = \\frac {17}{12} = 1.41666 \\dots
1 + \\frac 1 {2 + \\frac 1 {2+\\frac 1 {2+\\frac 1 2}}} = \\frac {41}{29} = 1.41379 \\dots
The next three expansions are \\frac {99}{70}
, \\frac {239}{169}
, and \\frac {577}{408}
, but the eighth expansion, \\frac {1393}{985}
, is the first example where the number of digits in the numerator exceeds the number of digits in the denominator.
In the first one-thousand expansions, how many fractions contain a numerator with more digits than denominator?
--hints--
squareRootConvergents()
should return a number.
assert(typeof squareRootConvergents() === 'number');
squareRootConvergents()
should return 153.
assert.strictEqual(squareRootConvergents(), 153);
--seed--
--seed-contents--
function squareRootConvergents() {
return true;
}
squareRootConvergents();
--solutions--
// solution required