Introduction One of the most famous drawings of all time is Leonardo da Vinci’s Vitruvian Man. Da Vinci’s sketch was of a man enclosed by a circle that.

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Presentation transcript:

Introduction One of the most famous drawings of all time is Leonardo da Vinci’s Vitruvian Man. Da Vinci’s sketch was of a man enclosed by a circle that touched the man’s feet and hands. In this lesson, we will investigate the properties of quadrilaterals inscribed in a circle. 3.2.3: Proving Properties of Inscribed Quadrilaterals

Key Concepts An inscribed quadrilateral is a quadrilateral whose vertices are on a circle. The opposite angles of an inscribed quadrilateral are supplementary. m∠A + m∠C = 180 m∠B + m∠D = 180 3.2.3: Proving Properties of Inscribed Quadrilaterals

Key Concepts Remember that the measure of an inscribed angle is half the measure of the intercepted arc. Rectangles and squares can always be inscribed within a circle. 3.2.3: Proving Properties of Inscribed Quadrilaterals

Common Errors/Misconceptions mistakenly thinking that the diagonal of any inscribed quadrilateral is a diameter of the circle 3.2.3: Proving Properties of Inscribed Quadrilaterals

Guided Practice Example 1 Consider the inscribed quadrilateral in the diagram at right. What are the relationships between the measures of the angles of an inscribed quadrilateral? 3.2.3: Proving Properties of Inscribed Quadrilaterals

Guided Practice: Example 1, continued Find the measure of ∠B. ∠B is an inscribed angle. Therefore, its measure will be equal to half the measure of the intercepted arc. The intercepted arc has a measure of 122 + 52, or 174°. The measure of ∠B is of 174, or 87°. 3.2.3: Proving Properties of Inscribed Quadrilaterals

Guided Practice: Example 1, continued Find the measure of ∠D. The intercepted arc has a measure of 82 + 104, or 186°. The measure of ∠D is of 186, or 93°. 3.2.3: Proving Properties of Inscribed Quadrilaterals

Guided Practice: Example 1, continued What is the relationship between ∠B and ∠D? Since the sum of the measures of ∠B and ∠D equals 180°, ∠B and ∠D are supplementary angles. 3.2.3: Proving Properties of Inscribed Quadrilaterals

Guided Practice: Example 1, continued Does this same relationship exist between ∠A and ∠C ? The intercepted arc has a measure of 104 + 52, or 156°. The measure of ∠A is of 156, or 78°. The intercepted arc has a measure of 82 + 122, or 204°. The measure of ∠C is of 204, or 102°. The sum of the measures of ∠A and ∠C also equals 180°; therefore, ∠A and ∠C are supplementary. 3.2.3: Proving Properties of Inscribed Quadrilaterals

✔ Guided Practice: Example 1, continued State your conclusion. The opposite angles of an inscribed quadrilateral are supplementary. ✔ 3.2.3: Proving Properties of Inscribed Quadrilaterals

Guided Practice: Example 1, continued http://www.walch.com/ei/00201 3.2.3: Proving Properties of Inscribed Quadrilaterals

Guided Practice Example 2 Consider the inscribed quadrilateral to the right. Do the relationships discovered between the angles in Example 1 still hold for the angles in this quadrilateral? 3.2.3: Proving Properties of Inscribed Quadrilaterals

Guided Practice: Example 2, continued Calculate the measures of all four angles of quadrilateral ABCE. ∠A intercepts , so the measure of ∠A is half the measure of . 3.2.3: Proving Properties of Inscribed Quadrilaterals

Guided Practice: Example 2, continued ∠B intercepts , so the measure of ∠B is half the measure of . ∠C intercepts , so the measure of ∠C is half the measure of . 3.2.3: Proving Properties of Inscribed Quadrilaterals

Guided Practice: Example 2, continued ∠E intercepts , so the measure of ∠E is half the measure of . 3.2.3: Proving Properties of Inscribed Quadrilaterals

Guided Practice: Example 2, continued Find the sum of the measures of ∠A and ∠C. The sum of the measures of ∠A and ∠C is equal to 89 + 91 = 180. 3.2.3: Proving Properties of Inscribed Quadrilaterals

✔ Guided Practice: Example 2, continued State your conclusion. The measures of ∠A and ∠C sum to 180°, as do the measures of ∠B and ∠E ; therefore, it is still true that opposite angles of an inscribed quadrilateral are supplementary. ✔ 3.2.3: Proving Properties of Inscribed Quadrilaterals

Guided Practice: Example 2, continued http://www.walch.com/ei/00202 3.2.3: Proving Properties of Inscribed Quadrilaterals