Lesson 4-7 Triangles and Coordinate Proof

Lesson 4-7 Triangles and Coordinate Proof • Coordinate proof- uses figures in a coordinate plane and Algebra to prove geometric concepts. • Placing Figures in the Coordinate Plane • Use the origin as the vertex or the center of the figure • Place at least one side of a polygon on an axis • Keep the figure within the 1st quadrant, if possible • Use coordinates that make math easy

Position and label right triangleXYZ with leg d units long on the coordinate plane. Example 7-1a Use the origin as vertex X of the triangle. Place the base of the triangle along the positive x-axis. Position the triangle in the first quadrant. Since Z is on the x-axis, its y-coordinate is 0. Its x-coordinate is d because the base is d units long. Z (d, 0) X (0, 0)

Example 7-1b Since triangle XYZ is a right triangle the x-coordinate of Y is 0. We cannot determine the y-coordinate so call it b. Answer: Y (0, b) Z (d, 0) X (0, 0)

Position and label equilateral triangleABC with side w units long on the coordinate plane. Example 7-1c Answer:

The y-coordinate for S is the distance from R to S. Since QRS is an isosceles right triangle, Example 7-2a Name the missing coordinates of isosceles right triangle QRS. Q is on the origin, so its coordinates are (0, 0). The x-coordinate of S is the same as the x-coordinate for R, (c, ?). The distance from Q to R is c units. The distance from R to S must be the same. So, the coordinates of S are (c, c). Answer: Q(0, 0); S(c, c)

Example 7-2b Name the missing coordinates of isosceles right ABC. Answer: C(0, 0); A(0, d)

Example 7-3a Write a coordinate proof to prove that the segment that joins the vertex angle of an isosceles triangle to the midpoint of its base is perpendicular to the base.

Given:XYZ is isosceles. Example 7-3b The first step is to position and label a right triangle on the coordinate plane. Place the base of the isosceles triangle along the x-axis. Draw a line segment from the vertex of the triangle to its base. Label the origin and label the coordinates, using multiples of 2 since the Midpoint Formula takes half the sum of the coordinates. Prove:

Proof: By the Midpoint Formula, the coordinates of W, the midpoint of , is The slope of or undefined. The slope of is therefore, . Example 7-3c

Example 7-3d Write a coordinate proof to prove that the segment drawn from the right angle to the midpoint of the hypotenuse of an isosceles right triangle is perpendicular to the hypotenuse.

Proof: The coordinates of the midpoint D are The slope of is or 1. The slope of or –1, therefore . Example 7-3e

Proof: The slope of or undefined. The slope of or 0, therefore DEF is a right triangle. The drafter’s tool is shaped like aright triangle. Example 7-4a DRAFTINGWrite a coordinate proof to prove that the outside of this drafter’s tool is shaped like a right triangle. The length of one side is 10 inches and the length of another side is 5.75 inches.

C Example 7-4b FLAGS Write a coordinate proof to prove this flag is shaped like an isosceles triangle. The length is 16 inches and the height is 10 inches.

Proof: Vertex A is at the origin and B is at (0, 10). The x-coordinate of C is 16. The y-coordinate is halfway between 0 and 10 or 5. So, the coordinates of C are (16, 5). Determine the lengths of CA and CB. Since each leg is the same length, ABC is isosceles. The flag is shaped like an isosceles triangle. Example 7-4c

Lesson 4-7 Triangles and Coordinate Proof