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GRADE CWR
identify implicit and explicit assumptions that have been made. In exploring minimum spanning tree situations students devise, analyze, and apply algorithms as they adopt strategies to confront the problem. Such strategies can lead to Kruskal’s algorithm, Prim’s algorithm,...
1
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identify implicit and explicit assumptions that have been made. In exploring minimum spanning tree situations students devise, analyze, and apply algorithms as they adopt strategies to confront the problem. Such strategies can lead to Kruskal’s algorithm, Prim’s algorithm, or the “nearest neighbor” algorithm. Example: • Susan is a city planner in charge of the development of roads for a recreational area. The graph shows locations in the area, the possible roads that could be built between locations
15
0
http://www.ade.state.az.us/standards/math/Articulated08/Gradeleveldocs/MathGradeCWR.pdf#page=15
www.ade.state.az.us/standards/math/Articulated08/Gradeleveldocs/MathGrade...
identify implicit and explicit assumptions that have been made. In exploring minimum spanning tree situations students devise, analyze, and apply algorithms as they adopt strategies to confront the problem. Such strategies can lead to Kruskal’s <span class="highlight">algorithm</span>, Prim’s <span class="highlight">algorithm</span>, or the “nearest neighbor” <span class="highlight">algorithm</span>. Example: • Susan is a city planner in charge of the development of roads <span class="highlight">for</span> a recreational area. The graph shows locations in the area, the possible roads that could be built between locations
GRADE 5
simple polygons. Connections: M05S4C103, M05S4C4 04, M05S4C405, M05S5C210 M05S5C206. Summarize mathematical information, explain reasoning, and draw conclusions. Using grids, geoboards, or other manipulatives, students are expected to determine the area and perimeter of a variety of po...
1
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simple polygons. Connections: M05S4C103, M05S4C4 04, M05S4C405, M05S5C210 M05S5C206. Summarize mathematical information, explain reasoning, and draw conclusions. Using grids, geoboards, or other manipulatives, students are expected to determine the area and perimeter of a variety of polygons, and then develop a general algorithm or formula for finding the area of rectangles and triangles and the perimeter of any simple polygon. Strand 5: Structure and Logic Concept 2: Logic
29
0
http://www.ade.state.az.us/standards/math/Articulated08/Gradeleveldocs/MathGrade5.pdf#page=29
www.ade.state.az.us/standards/math/Articulated08/Gradeleveldocs/MathGrade...
simple polygons. Connections: M05S4C103, M05S4C4 04, M05S4C405, M05S5C210 M05S5C206. Summarize mathematical information, explain reasoning, and draw conclusions. Using grids, geoboards, or other manipulatives, students are expected to determine the area and perimeter of a variety of polygons, and then develop a general <span class="highlight">algorithm</span> or formula <span class="highlight">for</span> finding the area of rectangles and triangles and the perimeter of any simple polygon. Strand 5: Structure and Logic Concept 2: Logic

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