Coordinate proofs

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Analytic Geometry 6-1 Coordinate Proofs

6-1 Coordinate Proofs Objective: To prove theorems from Geometry by using coordinates. Suppose we had to prove or investigate a theorem about a right triangle. Which orientation of the coordinate axes seems preferable to work with? a b c Usually, because the math is easier, Figure a is least desirable. Figure c , while awkward in its orientation may still be preferable. Figure b is probably our first choice.

6-1 Coordinate Proofs What’s true of triangles is true of other shapes as well. It’s easy to see that both the trapezoid and the parallelogram are easier to work with if aligned with the axes:

Example 1: Midpoint of Hypotenuse Prove: The midpoint of the hypotenuse of a right triangle is equidistant from the three vertices. Solution: Step 1: First we make a coordinate diagram of the triangle and note what we are given and what we must prove. Given: is a right angle. is the midpoint of . Prove: . (We already know that .)

Example 1: Midpoint of Hypotenuse Solution: Step 2: Next we use what is given to add information to the diagram or to express algebraically any given fact not shown in the original diagram. ( In this example, we use the given fact that is the midpoint of to find the coordinates of .)

Example 1: Midpoint of Hypotenuse Solution: Step 3: Finally, we reword what we are trying to prove in algebraic terms. To prove : Since

Example 2: Median of a Trapezoid Prove: The median of a trapezoid is parallel to the bases and has length equal to the average of the lengths of the bases. Solution: Step 1: Show a diagram and the “Given” and “Prove.” Given: Figure is a trapezoid. Points and are midpoints of and respectively. Prove: (1) and (2) .

Example 2: Median of a Trapezoid Solution: Step 2: Next we use what is given to add information to the diagram or to express algebraically any given fact not shown in the original diagram. ( In this example, we use the fact that and are midpoints to find their coordinates.) M N

Example 2: Median of a Trapezoid Solution: Step 3: We reword what we are to prove in algebraic terms. (1) To prove , we must show that and have the same slope. A quick check shows that both slopes are zero, so this part of the proof is done. (2) Lastly, we use algebra to show that . M N

Example 3: Altitudes of a Triangle Prove: The altitudes of a triangle meet in one point, that is, they are concurrent . Solution: Step 1: Show a diagram and the “Given” and “Prove.” Given: with altitudes , , and . Prove: Lines PD, QO, and RE have a point in common. ( Notice that the axes are placed in such a way that one of the altitudes lies on the y-axis . )

Example 3: Altitudes of a Triangle Solution: Step 2: We use the given information to express algebraically the fact that , , and are altitudes. a. To find the slope of line PD, we note that the slope of line QR is , so that the slope of line PD is . Since line PD contains the point (a, 0), its equation is , or . b. Likewise, an equation of line RE is , or . c. The equation of the vertical line is x=0.

Example 3: Altitudes of a Triangle Solution: Step 3: We reword what we are to prove in algebraic terms. To prove that lines PD, QO, and RE have a point in common, we must show that their equations have a common solution. Using substitution to solve we get . Since Substituting 0 for x in the equation , we get . Thus the lines PD and RE intersect at (0, ), a point on the y-axis, that is, on altitude QO, so we are done. (The point of concurrency of the altitudes is called the orthocenter of the triangle.)

Methods Used in Coordinate Proofs 1. To prove line segments equal, use the distance formula to show that they have the same length. 2. To prove non-vertical lines parallel, show that they have the same slope. 3. To prove lines perpendicular, show that the product of their slopes is -1. 4. To prove that two line segments bisect each other, use the midpoint formula to show that each segment has the same midpoint. 5. To show that lines are concurrent, show that their equations have a common solution.

Homework: pages 218 - 219 #1, 3, 5, 7, 9, 11.

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