{"status": "success", "data": {"description_md": "The sides of rectangle $ABCD$ have lengths 10 and 11. An equilateral triangle is drawn so that no point of the triangle lies outside $ABCD.$ The maximum possible area of such a triangle can be written in the form $p\\sqrt{q}-r,$ where $p, q,$ and $r$ are positive integers, and $q$ is not divisible by the square of any prime number. Find $p+q+r.$\n___\nLeading zeroes must be inputted, so if your answer is `34`, then input `034`. Full credit goes to [MAA](https://maa.org/) for authoring these problems. These problems were taken on the [AOPS](https://artofproblemsolving.com/) website.", "description_html": "<p>The sides of rectangle <span class=\"katex--inline\">ABCD</span> have lengths 10 and 11. An equilateral triangle is drawn so that no point of the triangle lies outside <span class=\"katex--inline\">ABCD.</span> The maximum possible area of such a triangle can be written in the form <span class=\"katex--inline\">p\\sqrt{q}-r,</span> where <span class=\"katex--inline\">p, q,</span> and <span class=\"katex--inline\">r</span> are positive integers, and <span class=\"katex--inline\">q</span> is not divisible by the square of any prime number. Find <span class=\"katex--inline\">p+q+r.</span></p>&#10;<hr><p>Leading zeroes must be inputted, so if your answer is <code>34</code>, then input <code>034</code>. Full credit goes to <a href=\"https://maa.org/\">MAA</a> for authoring these problems. These problems were taken on the <a href=\"https://artofproblemsolving.com/\">AOPS</a> website.</p>", "hints_md": "", "hints_html": "", "editorial_md": "", "editorial_html": "", "flag_hint": "", "point_value": 6, "problem_name": "1997 AIME Problem 15", "can_next": false, "can_prev": true, "nxt": "", "prev": "/problem/97_aime_p14"}}