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We all have spotted triangles or triangular objects in our day to day life. We are also familiar with the dimensions of a triangle that it has three sides and three angles, but what about other important elements of the triangle? We are talking about the incenter of a triangle. Incenter is actually the point of intersection of all the 3 interior angle bisectors of the triangle. On the other hand, the angle bisectors in a triangle are always concurrent.
Pictorial Presentation of Incenters of a Triangle
Let’s check out the simulation below in order to know the incenters of different triangles on the triangular field.
Paul has broken down all the 3 angles equally and stretched out the lines.
All the 3 lines bisect at one point.
So, Paul went to stand on that point.
Do you know what that point is called?
Yes, Paul is standing in the incenter on the field.
Centroid of a Triangle Definition
The centroid of a triangle means the centre point of an object. The points in which the 3 medians of the triangle bisect are referred to as the centroid of a triangle. It is also described as the point of bisection of all the 3 medians. The median is a line which connects the center point of a side and the opposite vertex of the triangle. The centroid of the triangle divides the median in 2: 1. It can be simply calculated by taking the average of both x- coordinate points and y-coordinate points of all the vertices of the triangle. Hope the centroid of a triangle definition seems simple and clear with the given explanation.
Centroid of a Right Angle Triangle
The centroid of a right triangle is actually the point of intersection of 3 medians, constructed through the vertices of the triangle to the midpoint of the opposite sides.
Types of Triangle
In Euclidean Geometry, the centroid is a crucial concept in reference to a triangle. A triangle is a 3-sided bounded figure consisting of interior angles. Depending upon the sides and angles, a triangle can be categorized into different types such as:
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Equilateral triangle
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Isosceles triangle
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Scalene triangle
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Acute-angled triangle
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Obtuse-angled triangle
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Right-angled triangle
The centroid is a crucial property of a triangle as well for different geometric shapes in detail.
Centroid of a Triangle Formula
Let’s assume a triangle ABC. If the 3 vertices of the triangle are A(x[_{1}], y[_{1}]), B(x[_{2}], y[_{2}]), C(x[_{3}], y[_{3}]), then the centroid of a triangle can be found out by taking the average of X and Y coordinate points of all 3 vertices. Thus, the centroid of a triangle can be mathematically written as:
Centroid of triangle formula = ([frac{x_{1}+x_{2}+x_{3})}{3}]), ([frac{y_{1}+y_{2}+y_{3})}{3}])
Solved Examples
Example:
Mahima computed the area of a triangular box as 180 square feet. The perimeter of the box is 60 feet. If a circle is inscribed in the interior of the triangle in a way that it touches every side of the triangle, help Mahima calculate the in radius of the triangle.
Solution:
Given measurements:
The area of the box = 180 square feet
The perimeter of the box = 60feet
Thus, the Semiperimeter of the triangular box = 60 feet =30 feet
The area of the triangle = sr where r is the inradius of the triangle
Area
180 =30 × r
180/30 =r
6
=r
Therefore, r = 6 feet
Example:
The coordinates of the incenter of the triangle PQR formed by the points A(3,1),B(0,3),C(−3,1) is (p,q). Determine triangle points (p,q).
Solution:
Given:
The vertices of the triangles = A (3,1),B(0,3),C(−3,1)
c = AB = [sqrt{(3-0)^{2} + (1-3)^{2}}]
c = AB = [sqrt{3^{2} + (-2)^{2}}] = [sqrt{13}]
a = BC = [sqrt{(-3-0)^{2} + (1-3)^{2}}]
a = BC = [sqrt{(-3)^{2} + (-2)^{2}}] = [sqrt{13}]
b = AC = [sqrt{(-3-3)^{2} + (1-1)^{2}}]
b = AC = [sqrt{-6^{2}+0^{2}}] = 6
Incenter of the triangle is:
([frac{ax_{1}+bx_{2}+cx_{3}}{a+b+c}], [frac{ay_{1}+by_{2}+cy_{3}}{a+b+c}])
([frac{3sqrt{13}+0−3sqrt{13}}{6+2sqrt{13}}], [frac{2sqrt{13}+18}{6+2sqrt{13}}])
(0, [frac{2sqrt{13}+18}{6+2sqrt{13}}])
Therefore, (0, [frac{2sqrt{13}+18}{6+2sqrt{13}}])
Fun Facts
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The centroid of a triangle splits up the median in the ratio of 2:1.
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The incenter of a triangle can also be described as the center of the circle which is stamped in a triangle
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When a circle is inscribed in a triangle in a way that the circle touches each side of the triangle, the center of the circle is what we call the incenter of the triangle.