Theorems

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(The Sum of the Interior Angles of any Polygon)
(The Sum of the Interior Angles of any Polygon)
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Example: Find the sum of the interior angles of a hexagon (six-sided figure)
Example: Find the sum of the interior angles of a hexagon (six-sided figure)
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Solution: Since a hexagon has 6 sides, we substitute n with 6.
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Solution: Since a hexagon has 6 sides, we substitute n with 6 which gives us <math>(6-2)180 = (4)180 = 720^\circ</math> so the sum of the interior angles of a hexagon is <math>720^\circ</math>
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so <math>(6-2)180 = (4)180 = 720^\circ</math> so the sum of the interior angles of a hexagon is <math>720^\circ</math>
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==The Measure of Each Interior Angle of a Regular Polygon==
==The Measure of Each Interior Angle of a Regular Polygon==

Revision as of 03:36, 22 October 2009

Contents

The Distance Formula

d=\sqrt{(x_2-x_1)^2 + (y_2-y_1)^2}

Example: Find the distance between point A(5,-7) and B(-6,-2) and leave your answer in radical form.

Solution: Let A be point 1 and B be point 2. We have x_1\ =5,y_1 = -7, x_2 = -6, y_2 = -2

Substituting we have d=\sqrt{(\ -6 -5)^2 + (-2 - -7)^2} =

\sqrt{(\ -11)^2 + (-2 +7)^2} =

\sqrt{(\ -11)^2 + (+5)^2} =

\sqrt{\ 121 + 25} = \sqrt{146}

Try some distance problems at Distance & Midpoint 9-2 ME Worksheet

Sum of Two Sides of a Triangle

Thm: The sum of two sides of any triangle must be greater than the third side

Example: Given two sides of a triangle are 8 inches and 11 inches, find all the possible lengths of the third side (also known as S3)

Solution: Since we know that 8 + 11 must be greater than S3, we have 8\ + 11 > S_3, so S3 must be less than 19. But what is the smallest value that S3 can be?


Well, we know that S_3\ + 11\ must\ be > 8 , but 11 is already greater than 8 so that doesn't help us. However we also know that S_3\ + 8\ must\ be > 11 .

Using algebra we subtract 8 from both sides of our inequality we get S_3\ + 8 {\color{Red}-8}\ > 11 {\color{Red}-8} , so S_3\ > 3. Our final answer is 3 < S_3\ < 19 (our third side must be greater than 3 but less than 19).

Supplementary Angle Theorem

Two angles that add up to 180 degrees are said to be supplementary angles

Complementary Angle Theorem

Two angles that add up to 90 degrees are said to be complementary angles

The Sum of the Interior Angles of a Triangle

The sum of the interior angles of a triangle are 180 degrees

External Angle Theorem

Thm: An external angle is equal to the sum of the two opposite interior angles.

Look at the figure below. We know that the sum of the interior angles of a triangle is 180 degrees. That means that in triangle ABC below, \angle 2 + \angle 3 + \angle 4 = 180^\circ. We also know that angles 1 and 2 are supplementary angles, meaning that \angle 2 + \angle 1 = 180^\circ. So if \angle 2 + \angle 1 = 180^\circ and \angle 2 + \angle 3 + \angle 4 = 180^\circ, then it must be true that \angle 1 = (\angle 3 + \angle 4) by substitution.


caption

Vertical Angle Theorem

Vertical angles are equal

Look at the intersecting line segments EF & GH below. We know that \angle 1 + \angle 2 = 180^\circ since they're supplementary angles. We also know that \angle 1 + \angle 4 = 180^\circ because they too are supplementary. If that's the case, it must be true that \angle 2 = \angle 4 by substitution. By the same logic, \angle 1 = \angle 3. Angle 2 and angle 4 are vertical angles, and angle 1 and angle 3 are also vertical angles.

Vertical angles


SSS Triangle Congruence Theorems

If 3 sides of one triangle are equal in length to 3 sides of another triangle, the two triangles are congruent. This is called the Side-Side-Side triangle congruence theorem, or the SSS theorem.

SAS Triangle Congruence Theorems

If 2 sides and the included angle of one triangle are equal in length to 2 sides and the included angle of another triangle, the two triangles are congruent. This is called the Side-Angle-Side triangle congruence theorem, or the SAS theorem.

Important note: The included angle is the angle between the two corresponding sides.

The Sum of the Interior Angles of any Polygon

To find the sum of the interior angles of any polygon we use the following formula:

(n − 2)180

Example: Find the sum of the interior angles of a hexagon (six-sided figure)

Solution: Since a hexagon has 6 sides, we substitute n with 6 which gives us (6-2)180 = (4)180 = 720^\circ so the sum of the interior angles of a hexagon is 720^\circ

The Measure of Each Interior Angle of a Regular Polygon

The Measure of Each Exterior Angle of a Regular Polygon

The Sum of the Exterior Angles of any Polygon

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