{"status": "success", "data": {"description_md": "As shown in the figure, line segment $\\overline{AD}$ is trisected by points $B$ and $C$ so that $AB=BC=CD=2.$ Three semicircles of radius $1,$ $\\overarc{AEB},\\overarc{BFC},$ and $\\overarc{CGD},$ have their diameters on $\\overline{AD},$ and are tangent to line $EG$ at $E,F,$ and $G,$ respectively. A circle of radius $2$ has its center on $F.$ The area of the region inside the circle but outside the three semicircles, shaded in the figure, can be expressed in the form\n$$\\frac{a}{b}\\cdot\\pi-\\sqrt{c}+d,$$where $a,b,c,$ and $d$ are positive integers and $a$ and $b$ are relatively prime. What is $a+b+c+d$?\n\n
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\n\n$\\textbf{(A) } 13 \\qquad\\textbf{(B) } 14 \\qquad\\textbf{(C) } 15 \\qquad\\textbf{(D) } 16\\qquad\\textbf{(E) } 17$", "description_html": "

As shown in the figure, line segment \\overline{AD} is trisected by points B and C so that AB=BC=CD=2. Three semicircles of radius 1, \\overarc{AEB},\\overarc{BFC}, and \\overarc{CGD}, have their diameters on \\overline{AD}, and are tangent to line EG at E,F, and G, respectively. A circle of radius 2 has its center on F. The area of the region inside the circle but outside the three semicircles, shaded in the figure, can be expressed in the form
\n \\frac{a}{b}\\cdot\\pi-\\sqrt{c}+d, where a,b,c, and d are positive integers and a and b are relatively prime. What is a+b+c+d ?

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\\textbf{(A) } 13 \\qquad\\textbf{(B) } 14 \\qquad\\textbf{(C) } 15 \\qquad\\textbf{(D) } 16\\qquad\\textbf{(E) } 17

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Full credit goes to MAA for authoring these problems. These problems were taken on the AOPS website.

", "hints_md": "", "hints_html": "", "editorial_md": "", "editorial_html": "", "flag_hint": "", "point_value": 3, "problem_name": "2019 AMC 10B Problem 20", "can_next": true, "can_prev": true, "nxt": "/problem/19_amc10B_p21", "prev": "/problem/19_amc10B_p19"}}