I can position figures in the coordinate plane for use in coordinate proofs. I can prove geometric concepts by using coordinate proof.

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Page 1 of 14 Attendance Problems. 1. Find the midpoint between (0, x) and (y, z).. One leg of a right triangle has length 1, and the hypotenuse has length 13. What is the length of the other leg? 3. Find the distance between (0, a) and (0, b), where b > a. I can position figures in the coordinate plane for use in coordinate proofs. I can prove geometric concepts by using coordinate proof. Vocabulary: coordinate proof Common Core CC.9-1.G.GPE.4 Use coordinates to prove simple geometric theorems algebraically. CC.9-1.G.GPE.7 Use coordinates to compute perimeters of polygons and areas of triangles and rectangles, e.g., using the distance formula.* CC.9-1.G.MG.3 Apply geometric methods to solve design problems (e.g., designing an object or structure to satisfy physical constraints or minimize cost; working with typographic grid systems based on ratios).* You have used coordinate geometry to find the midpoint of a line segment and to find the distance between two points. Coordinate geometry can also be used to prove conjectures. A coordinate proof is a style of proof that uses coordinate geometry and algebra. The first step of a coordinate proof is to position the given figure in the plane. You can use any position, but some strategies can make the steps of the proof simpler.

Page of 14 Video Example 1. Position a rectangle with length 4 units and width 6 units in the coordinate plane.

Page 3 of 14 1 Positioning a Figure in the Coordinate Plane Position a rectangle with a length of 8 units and a width of 3 units in the coordinate plane. Method 1 You can center the longer side of the rectangle at the origin. Method You can use the origin as a vertex of the rectangle. (-4, 3) 4 y (4, 3) 4 y (0, 3) (8, 3) (-4, 0) 0 x (4, 0) 0 (0, 0) 4 6 x (8, 0) Depending on what you are using the figure to prove, one solution may be better than the other. For example, if you need to find the midpoint of the longer side, use the first solution. Example 1. Position a square with a side length of 6 units in the coordinate plane.

Page 4 of 14 4. Guided Practice. Position a right triangle with leg lengths of and 4 units in the coordinate plane. (Hint: Use the origin as the vertex of the right angle.) Once the figure is placed in the coordinate plane, you can use slope, the coordinates of the vertices, the Distance Formula, or the Midpoint Formula to prove statements about the figure.

Page 5 of 14 Video Example. Right ABC has vertices A( 0,8), B( 0,0), & C( 5,0). Given: D is the midpoint of AC. Prove: The area of ABC is twice the area of DBC.

Page 6 of 14 Writing a Proof Using Coordinate Geometry Write a coordinate proof. Given: Right ABC has vertices A (0, 6), B (0, 0), and C (4, 0). D is the midpoint of AC. Prove: The area of DBC is one half the area of ABC. Proof: ABC is a right triangle with height AB and base BC. area of ABC = 1 bh = 1 (4)(6) = 1 square units By the Midpoint Formula, the coordinates of D = ( 0 + 4, 6 + 0 ) = (, 3). The y-coordinate of D is the height of DBC, and the base is 4 units. area of DBC = 1 bh Since 6 = 1 = 1 (4)(3) = 6 square units (1), the area of DBC is one half the area of ABC. 6 4 B y A D C 6 x

Page 7 of 14 Example. Given: Given: Rectangle ABCD with A(0, 0), B(4, 0), C(4, 10), and D(0, 10). Prove: The diagonals bisect each other.

Page 8 of 14 5. Guided Practice. Right ABC has vertices A( 0,6), B( 0,0), & C( 4,0). Given: D is the midpoint of AC. Prove: The are of ADB is half the area of ABC. A coordinate proof can also be used to prove that a certain relationship is always true. You can prove that a statement is true for all right triangles without knowing the side lengths. To do this, assign variables as the coordinates of the vertices.

Page 9 of 14 Video Example 3. Position each figure in the coordinate plane and give the coordinates of each vertex. A. A right triangle with leg lengths m and and n. B. A rectangle with length q and width r. 3 Assigning Coordinates to Vertices Position each figure in the coordinate plane and give the coordinates of each vertex. A a right triangle with leg lengths a and b y (0, a) B a rectangle with length c and width d y (c, d) (0, d) (0, 0) (b, 0) x (0, 0) (c, 0) x

Page 10 of 14 Example 3. Position each figure in the coordinate plane and give the coordinates of each vertex. A. Rectangle with width m and length twice the width. B. Right triangle with legs of lengths s and t. Caution! Do not use both axes when positioning a figure unless you know the figure has a right angle. 6. Guided Practice. Position a square with side length 4p in the coordinate plane and give the coordinates of each vertex.

If a coordinate proof requires calculations with fractions, choose coordinates that make the calculations simpler. For example, use multiples of when you are to find coordinates of a midpoint. Once you have assigned the coordinates of the vertices, the procedure for the proof is the same, except that your calculations will involve variables. Remember! Because the x- and y-axes intersect at right angles, they can be used to form the sides of a right triangle. Video Example 4. B is a right angle in ABC. Given: Geometry 4-8 Study Guide: Introduction to Coordinate Proof (pp 79-84) Page 11 of 14 D is the midpoint of AB. E is the midpoint of BC. Prove: The area of DBE is one fourth the area of ABC.

Page 1 of 14 4 Writing a Coordinate Proof Given: B is a right angle in ABC. D is the midpoint of AC. Prove: The area of DBC is one half the area of ABC. Step 1 Assign coordinates to each vertex. The coordinates of A are (0, j), the coordinates of B are (0, 0), and the coordinates of C are (n, 0). Step Position the figure in the coordinate plane. Step 3 Write a coordinate proof. Proof: ABC is a right triangle with height j and base n. area of ABC = 1 bh = 1 (n) (j) = nj square units Since you will use the Midpoint Formula to find the coordinates of D, use multiples of for the leg lengths. A(0, j) By the Midpoint Formula, the coordinates of D = ( 0 + n The height of DBC is j units, and the base is n units. area of DBC = 1 bh = 1 (n) (j) = nj square units y D B(0, 0) C(n, 0), j + 0 Since nj = 1 (nj), the area of DBC is one half the area of ABC. ) = (n, j). x

Page 13 of 14 Example 4. Given: Rectangle PQRS Prove: The diagonals are congruent.

Page 14 of 14 7. Guided Practice. B is a right angle in ABC. Given: D is the midpoint of AC. Prove: The area of ADB is one half the area of ABC. 4-8 Assignment (pp 8-83) 8, 10, 1, 13, 15.

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