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In this lesson, the inscribed and circumscribed circles of a triangle will be constructed.
Catch-Up and Review
Here are a few recommended readings before getting started with this lesson.
Challenge
Investigating Inscribed and Circumscribed Circles of a Triangle
Discussion
Definition of Incenter, Circumcenter, and Centroid
The definition of three noticeable points will be explored below.
Concept
Incenter
The incenter of a triangle is the point of intersection of the triangle's angle bisectors. The incenter is typically represented by the letter I. This point is considered to be the center of the triangle. For every triangle, the incenter is always inside the triangle.
Recall that by the Incenter Theorem, the incenter of a triangle is equidistant from each side of the triangle.
Concept
Circumcenter
The circumcenter of a triangle is the point of intersection of the triangle's perpendicular bisectors. Circumcenter of a triangle is denoted by the letter S. It can be inside, outside, or on a triangle's side, depending on the triangle type.
The circumcenter is equidistant from the vertices of the triangle by the Circumcenter Theorem.
Concept
Centroid
The centroid of a triangle is the point of intersection of the triangle's medians. The centroid is typically represented by the letter G. This point is always inside the triangle.
Example
Identifying a Triangles Incenter, Circumcenter, and Centroid
Zain is trying to match the given points with their corresponding definitions.
Help Zain match them! 
{"type":"pair","form":{"alts":[[{"id":0,"text":"Point <span class=\"katex\"><span class=\"katex-html\" aria-hidden=\"true\"><span class=\"base\"><span class=\"strut\" style=\"height:0.68333em;vertical-align:0em;\"><\/span><span class=\"mord mathdefault\">A<\/span><\/span><\/span><\/span>"},{"id":1,"text":"Point <span class=\"katex\"><span class=\"katex-html\" aria-hidden=\"true\"><span class=\"base\"><span class=\"strut\" style=\"height:0.68333em;vertical-align:0em;\"><\/span><span class=\"mord mathdefault\" style=\"margin-right:0.05017em;\">B<\/span><\/span><\/span><\/span>"},{"id":2,"text":"Point <span class=\"katex\"><span class=\"katex-html\" aria-hidden=\"true\"><span class=\"base\"><span class=\"strut\" style=\"height:0.68333em;vertical-align:0em;\"><\/span><span class=\"mord mathdefault\" style=\"margin-right:0.07153em;\">C<\/span><\/span><\/span><\/span>"}],[{"id":0,"text":"Incenter"},{"id":1,"text":"Centroid"},{"id":2,"text":"Circumcenter"}]],"lockLeft":false,"lockRight":false},"formTextBefore":"","formTextAfter":"","answer":[[0,1,2],[0,1,2]]}
Hint
Begin by defining the segments that form the points.
Solution
To match the points with their definitions, the segments that form the points should be defined. Looking at the graph for point A, it can be seen that the segments do not bisect the sides of the triangle. However, they bisect the interior angles of the triangle.
With this information, it can be concluded that the segments are the angle bisectors of the triangle. Therefore, point A is the incenter of the triangle. Next, the second diagram will be considered.
The segments bisect the sides of the triangle and connect the midpoints of the sides with their opposite vertices. Therefore, they are the medians of the triangle, and point B is the centroid. Lastly, the segments that form point C will be defined.
Each segment is perpendicular to and bisects a side of the triangle. This means that they are perpendicular bisectors of the sides, and point C is the circumcenter of the triangle.
Example
Using Incenter, Circumcenter, and Centroid in Real Life
The concepts previously investigated can also be used in real life!
In the Mile High City, Denver, the cities transportation department is planning to pave three roads that connect three neighborhoods.
Magdalena and Vincenzo are the owners of two competing hotel chains. They see this as an opportunity to expand their empires into this region. Magdalena wants her hotel to be equidistant from each paved road. On the other hand, Vincenzo wants his hotel to be equidistant from the neighborhoods.
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{"type":"choice","form":{"alts":["Vincenzo's hotel should be at the circumcenter","Vincenzo's hotel should be at the incenter","Vincenzo's hotel should be at the centroid"],"noSort":false},"formTextBefore":"","formTextAfter":"","answer":0}
Hint
Consider the definitions of incenter and circumcenter, and centroid.
Solution
Looking at the diagram, it can be seen that the roads form a triangle. Recall that the incenter of a triangle is equidistant from each side. Also, the circumcenter of a triangle is equidistant from each vertices.
Therefore, Magdalena's hotel should be at the incenter of the triangular region. Vincenzo's hotel should be at the circumcenter of the triangular region.
Discussion
Inscribing a Circle in a Triangle
It has been previously seen that the incenter of a triangle is equidistant from its sides. Thereofre, a circle inscribed in the triangle and centered at the incenter can be drawn.
Concept
Inscribed Circle
Construction
Drawing the Inscribed Circle of a Triangle
In a few of steps, it is possible to draw the inscribed circle or incircle of a triangle.
1
Draw the Angle Bisectors of Two Vertices
expand_more Begin by drawing the angle bisector of two vertices of the triangle. Then, label their point of intersection as I.
The point of intersection of the angle bisectors is the incenter of the triangle. It is also the center of the incircle.
2
Draw the Radius of the Incircle
expand_more The incenter is equidistant from the sides of the triangle. To draw the radius of the incircle, a line through I that is perpendicular to any of the sides should be drawn.
3
Draw the Incircle
expand_more 
Discussion
Circumscribing a Circle of a Triangle
To follow another connection between circles and triangles, consider the circumcenter of a triangle. Recall that this point is equidistant from the vertices of the triangle. Therefore, a circle circumscribed at the triangle and centered at the circumcenter can be drawn.
Concept
Circumscribed Circle of a Triangle
The circumscribed circle or circumcircle of a triangle is the circle that passes through the three vertices of the triangle. The center of the circumscribed circle is the circumcenter of the triangle.
Construction
Drawing the Circumscribed Circle of a Triangle
The circumscribed circle or circumcircle of a triangle can be drawn in a few of steps.
1
Draw the Perpendicular Bisectors of Two Sides
expand_more First, the perpendicular bisectors of two sides of the triangle will be drawn. Their point of intersection will be labeled as C.
The point of intersection of the perpendicular bisectors is the circumcenter of the triangle. It is also the center of the circumcircle.
2
Draw the Circumcircle
expand_more 
Example
Inscribed and Circumscribed Circles in Real Life
Inscribed and circumscribed circles can also be considered in real life!
LaShay built a triangular shaped farm and put gates in each corner.
At night, she wants to monitor all three gates. Therefore, she will place a lamp post in her farm. Where should she place the lamp so that each of the three corners are illuminated? Define the region illuminated by the light.
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Hint
Consider the definitions of the circles of a triangle.
Solution
Since LaShay wants to monitor all three gates of her farm, the lamp post must be equidistant from each corner. Recall that the circumcenter of a triangle is equidistant from its three vertices. Therefore, LaShay should place the lamp post at the circumcenter of the triangle.
Note that the region region illuminated by the light makes a circle that passes through the three vertices of the triangle. Therefore, the region is the circumscribed circle of the triangle.
Closure
Summarizing Inscribed and Circumscribed Circles of a Triangle
With the topics seen in this lesson, the challenge presented at the beginning can be answered. The circle that is tangent to each side of the triangle is the inscribed circle of the triangle. The circle that passes through the three vertices of the triangle is the circumscribed circle of the triangle.
For example, consider a carpenter designing a triangular table with one leg. To determine the location of the leg, he will use the centroid of the table. Since the centroid is the center of mass, the table will be perfectly balanced.
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