{"status": "success", "data": {"description_md": "<center>\n<img class=\"problem-image\" height=\"152\" src=\"https://latex.artofproblemsolving.com/6/6/a/66a524a2244d311dbe57cc4d9aaffc1b5e83bb03.png\" width=\"295\"/>\n</center>\n\nThe $8 \\times 18$ rectangle $ABCD$ is cut into two congruent hexagons, as shown, in such a way that the two hexagons can be repositioned without overlap to form a square.  What is $y$?\n\n$\\mathrm{(A)}\\ 6\\qquad\\mathrm{(B)}\\ 7\\qquad\\mathrm{(C)}\\ 8\\qquad\\mathrm{(D)}\\ 9\\qquad\\mathrm{(E)}\\ 10$", "description_html": "<center>&#10;<img class=\"problem-image\" height=\"152\" src=\"https://latex.artofproblemsolving.com/6/6/a/66a524a2244d311dbe57cc4d9aaffc1b5e83bb03.png\" width=\"295\"/>&#10;</center>&#10;<p>The <span class=\"katex--inline\">8 \\times 18</span> rectangle <span class=\"katex--inline\">ABCD</span> is cut into two congruent hexagons, as shown, in such a way that the two hexagons can be repositioned without overlap to form a square.  What is <span class=\"katex--inline\">y</span>?</p>&#10;<p><span class=\"katex--inline\">\\mathrm{(A)}\\ 6\\qquad\\mathrm{(B)}\\ 7\\qquad\\mathrm{(C)}\\ 8\\qquad\\mathrm{(D)}\\ 9\\qquad\\mathrm{(E)}\\ 10</span></p>&#10;", "hints_md": "", "hints_html": "", "editorial_md": "", "editorial_html": "", "flag_hint": "", "point_value": 1, "problem_name": "2006 AMC 10A Problem 7", "can_next": true, "can_prev": true, "nxt": "/problem/06_amc10A_p08", "prev": "/problem/06_amc10A_p06"}}