Introduction It is not uncommon for people to think of geometric figures, such as triangles and quadrilaterals, to be separate from algebra; however, we.

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Presentation transcript:

Introduction It is not uncommon for people to think of geometric figures, such as triangles and quadrilaterals, to be separate from algebra; however, we can understand and prove many geometric concepts by using algebra. In this lesson, you will see how the distance formula originated with the Pythagorean Theorem, as well as how distance between points and the slope of lines can help us to determine specific geometric shapes. 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Key Concepts Calculating the Distance Between Two Points To find the distance between two points on a coordinate plane, you have used the Pythagorean Theorem. After creating a right triangle using each point as the end of the hypotenuse, you calculated the vertical height (a) and the horizontal height (b). These lengths were then substituted into the Pythagorean Theorem (a2 + b2 = c2) and solved for c. The result was the distance between the two points. 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Key Concepts, continued This is similar to the distance formula, which states the distance between points (x1, y1) and (x2, y2) is equal to . Using the Pythagorean Theorem: Find the length of a: |y2 – y1|. Find the length of b: |x2 – x1|. 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Key Concepts, continued Using the Pythagorean Theorem, continued Substitute these values into the Pythagorean Theorem. Using the distance formula: 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Key Concepts, continued We will see in the Guided Practice an example that proves the calculations will result in the same distance. Calculating Slope To find the slope, or steepness of a line, calculate the change in y divided by the change in x using the formula . 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Key Concepts, continued Parallel and Perpendicular Lines Parallel lines are lines that never intersect and have equal slope. To prove that two lines are parallel, you must show that the slopes of both lines are equal. 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Key Concepts, continued Perpendicular lines are lines that intersect at a right angle (90˚). The slopes of perpendicular lines are always opposite reciprocals. To prove that two lines are perpendicular, you must show that the slopes of both lines are opposite reciprocals. When the slopes are multiplied, the result will always be –1. Horizontal and vertical lines are always perpendicular to each other. 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Common Errors/Misconceptions incorrectly using the x- and y-coordinates in the distance formula subtracting negative coordinates incorrectly incorrectly calculating the slope of a line incorrectly determining the slope of a line that is perpendicular to a given line assuming lines are parallel or perpendicular based on appearance only making determinations about the type of polygon without making all the necessary calculations 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Guided Practice Example 4 A right triangle is defined as a triangle with 2 sides that are perpendicular. Triangle ABC has vertices A (–4, 8), B (–1, 2), and C (7, 6). Determine if this triangle is a right triangle. When disproving a figure, you only need to show one condition is not met. 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Guided Practice: Example 4, continued Plot the triangle on a coordinate plane. 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Guided Practice: Example 4, continued Calculate the slope of each side using the general slope formula, . 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Guided Practice: Example 4, continued Observe the slopes of each side. The slope of is –2 and the slope of is . These slopes are opposite reciprocals of each other and are perpendicular. 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Right triangles have two sides that are perpendicular. Guided Practice: Example 4, continued Make connections. Right triangles have two sides that are perpendicular. Triangle ABC has two sides that are perpendicular; therefore, it is a right triangle. ✔ 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Guided Practice: Example 4, continued http://walch.com/ei/CAU6L1S2RightTri 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Guided Practice Example 5 A square is a quadrilateral with two pairs of parallel opposite sides, consecutive sides that are perpendicular, and all sides congruent, meaning they have the same length. Quadrilateral ABCD has vertices A (–1, 2), B (1, 5), C (4, 3), and D (2, 0). Determine if this quadrilateral is a square. 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Guided Practice: Example 5, continued Plot the quadrilateral on a coordinate plane. 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Guided Practice: Example 5, continued First show the figure has two pairs of parallel opposite sides. Calculate the slope of each side using the general slope formula, . 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Guided Practice: Example 5, continued 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Guided Practice: Example 5, continued Observe the slopes of each side. The side opposite is . The slopes of these sides are the same. The quadrilateral has two pairs of parallel opposite sides. 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Guided Practice: Example 5, continued and are consecutive sides. The slopes of the sides are opposite reciprocals. Consecutive sides are perpendicular. 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Guided Practice: Example 5, continued Show that the quadrilateral has four congruent sides. Find the length of each side using the distance formula, . 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Guided Practice: Example 5, continued The lengths of all 4 sides are congruent. 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

✔ Guided Practice: Example 5, continued Make connections. A square is a quadrilateral with two pairs of parallel opposite sides, consecutive sides that are perpendicular, and all sides congruent. Quadrilateral ABCD has two pairs of parallel opposite sides, the consecutive sides are perpendicular, and all the sides are congruent. It is a square. ✔ 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance

Guided Practice: Example 5, continued http://walch.com/ei/CAU6L1S2Square 6.1.2: Using Coordinates to Prove Geometric Theorems with Slope and Distance