Combinatorics, Combinatorial Geometry, Grid Paper Geometry / Lattice Geometry
This involves geometric problems set on a grid of equally spaced points (a lattice), often where coordinates are integers. Questions might involve finding areas of polygons using grid points (e.g., Pick's Theorem), counting lattice points, or analyzing shapes drawn on grid paper.
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Question
On an infinite grid of squares, 6 squares are marked, as in the diagram. How many squares contain stones? In one move, a stone can be removed if it has no adjacent stone above and to its right; then, two stones are placed in the squares above and to the right of the removed stone. Can we remove all stones from the marked squares if the initial state is:
A. (8 points) All marked squares.
B. (8 points) Only the bottom-left marked square.O
O O
O O OM. Konvitz'
Sources: -
Question
Cut the given shape into two congruent parts:
Topics:Geometry -> Plane Geometry -> Symmetry Combinatorics -> Combinatorial Geometry -> Cut a Shape / Dissection Problems Combinatorics -> Combinatorial Geometry -> Grid Paper Geometry / Lattice Geometry Geometry -> Plane Geometry -> Plane Transformations -> Congruence Transformations (Isometries) -
Question
Cut the given shape into two congruent parts:
Topics:Geometry -> Plane Geometry -> Symmetry Combinatorics -> Combinatorial Geometry -> Cut a Shape / Dissection Problems Combinatorics -> Combinatorial Geometry -> Grid Paper Geometry / Lattice Geometry Geometry -> Plane Geometry -> Plane Transformations -> Congruence Transformations (Isometries) -
Question
Cut the given shape into three congruent parts:
Topics:Geometry -> Plane Geometry -> Symmetry Combinatorics -> Combinatorial Geometry -> Cut a Shape / Dissection Problems Combinatorics -> Combinatorial Geometry -> Grid Paper Geometry / Lattice Geometry Geometry -> Plane Geometry -> Plane Transformations -> Congruence Transformations (Isometries) -
Question
Cut the given shape into three congruent parts:
Topics:Geometry -> Plane Geometry -> Symmetry Combinatorics -> Combinatorial Geometry -> Cut a Shape / Dissection Problems Combinatorics -> Combinatorial Geometry -> Grid Paper Geometry / Lattice Geometry Geometry -> Plane Geometry -> Plane Transformations -> Congruence Transformations (Isometries) -
Question
Cut the given shape into three congruent parts:
Topics:Geometry -> Plane Geometry -> Symmetry Combinatorics -> Combinatorial Geometry -> Cut a Shape / Dissection Problems Combinatorics -> Combinatorial Geometry -> Grid Paper Geometry / Lattice Geometry Geometry -> Plane Geometry -> Plane Transformations -> Congruence Transformations (Isometries) -
Question
Divide the given shape into three congruent parts:
Topics:Geometry -> Plane Geometry -> Symmetry Combinatorics -> Combinatorial Geometry -> Cut a Shape / Dissection Problems Combinatorics -> Combinatorial Geometry -> Grid Paper Geometry / Lattice Geometry Geometry -> Plane Geometry -> Plane Transformations -> Congruence Transformations (Isometries) -
Question
Partition the given shape into four congruent parts:
Topics:Geometry -> Plane Geometry -> Symmetry Combinatorics -> Combinatorial Geometry -> Cut a Shape / Dissection Problems Combinatorics -> Combinatorial Geometry -> Grid Paper Geometry / Lattice Geometry Geometry -> Plane Geometry -> Plane Transformations -> Congruence Transformations (Isometries) -> Reflection -
Question
Divide the given shape into four congruent parts:
​​​​​​​Topics:Geometry -> Plane Geometry -> Symmetry Combinatorics -> Combinatorial Geometry -> Cut a Shape / Dissection Problems Combinatorics -> Combinatorial Geometry -> Grid Paper Geometry / Lattice Geometry Geometry -> Plane Geometry -> Plane Transformations -> Congruence Transformations (Isometries) -
Question
Divide the given shape into four congruent parts:
​​​​​​​Topics:Geometry -> Plane Geometry -> Symmetry Combinatorics -> Combinatorial Geometry -> Cut a Shape / Dissection Problems Combinatorics -> Combinatorial Geometry -> Grid Paper Geometry / Lattice Geometry Geometry -> Plane Geometry -> Plane Transformations -> Congruence Transformations (Isometries)