Presentation is loading. Please wait.

Presentation is loading. Please wait.

Proof that the medians of any triangle meet at one point. Proof #2 Using algebra and analytic geometry.

Published byCory Bradley Modified over 9 years ago

Similar presentations

Presentation on theme: "Proof that the medians of any triangle meet at one point. Proof #2 Using algebra and analytic geometry."— Presentation transcript:

1 Proof that the medians of any triangle meet at one point. Proof #2 Using algebra and analytic geometry.

2 We have already demonstrated, using classical geometry, that the centroid lies at a point which divides each median in a ratio of 2:1. We will use the information about where the medians intersect to help us prove the theorem using analytic geometry. 2 1

3 First, we calculate the coordinates of the midpoints of each side of the triangle. Here are the coordinates of the vertices of our triangle. ? ? ?

4 Next, we need to find the coordinates of the points that split each median into a ratio of 2:1, then verify that these points are identical. We consult a book on analytic geometry, and find that the formula for the point that divides a line into a ratio of 2:1 is Let’s put that formula aside for now.

5 Next, we need to find the coordinates of the points that split each median into a ratio of 2:1, then verify that these points are identical. First, we insert the coordinates of the endpoints of our first line into our formula: =

6 Next, we need to find the coordinates of the points that split each median into a ratio of 2:1, then verify that these points are identical. Next, we insert the coordinates of the endpoints of our second line. =

7 Next, we need to find the coordinates of the points that split each median into a ratio of 2:1, then verify that these points are identical. Finally, we insert the coordinates of the endpoints of our third line. =

8 Hence, the point at a ratio of 2:1 on each median is the same, and is the centroid of the triangle.

Download ppt "Proof that the medians of any triangle meet at one point. Proof #2 Using algebra and analytic geometry."

Similar presentations

4.6 Medians of a Triangle.

4.6 Medians of a Triangle.
Proof that the medians of any triangle intersect at a single point.

Proof that the medians of any triangle intersect at a single point.
1.3 Use Midpoint and Distance Formulas

1.3 Use Midpoint and Distance Formulas
Using properties of Midsegments Suppose you are given only the three midpoints of the sides of a triangle. Is it possible to draw the original triangle?

Using properties of Midsegments Suppose you are given only the three midpoints of the sides of a triangle. Is it possible to draw the original triangle?
Geometry Chapter 5 Benedict. Vocabulary Perpendicular Bisector- Segment, ray, line or plane that is perpendicular to a segment at its midpoint. Equidistant-

Geometry Chapter 5 Benedict. Vocabulary Perpendicular Bisector- Segment, ray, line or plane that is perpendicular to a segment at its midpoint. Equidistant-
Midpoints of line segments. Key concepts  Line continue infinitely in both directions, their length cannot be measured.  A Line Segment is a part of.

Midpoints of line segments. Key concepts  Line continue infinitely in both directions, their length cannot be measured.  A Line Segment is a part of.
4-1 Detour Proofs Learner Objective: I will calculate midpoints of segments and complete proofs requiring that more than one pair of triangles be shown.

4-1 Detour Proofs Learner Objective: I will calculate midpoints of segments and complete proofs requiring that more than one pair of triangles be shown.
NM Standards: AFG.C.5, GT.A.5, GT.B.4, DAP.B.3. Any point that is on the perpendicular bisector of a segment is equidistant from the endpoints of the.

NM Standards: AFG.C.5, GT.A.5, GT.B.4, DAP.B.3. Any point that is on the perpendicular bisector of a segment is equidistant from the endpoints of the.
Proving the Midsegment of a Triangle Adapted from Walch Education.

Proving the Midsegment of a Triangle Adapted from Walch Education.
Honors Geometry Section 4.6 Special Segments in Triangles

Honors Geometry Section 4.6 Special Segments in Triangles
5.1 Bisectors, Medians, and Altitudes. Objectives Identify and use ┴ bisectors and  bisectors in ∆s Identify and use medians and altitudes in ∆s.

5.1 Bisectors, Medians, and Altitudes. Objectives Identify and use ┴ bisectors and  bisectors in ∆s Identify and use medians and altitudes in ∆s.
MORE TRIANGLES Chapter 5 Guess What we will learn about Geometry Unit Properties of Triangles 1.

MORE TRIANGLES Chapter 5 Guess What we will learn about Geometry Unit Properties of Triangles 1.
You have used coordinate geometry to find the midpoint of a line segment and to find the distance between two points. Coordinate geometry can also be used.

You have used coordinate geometry to find the midpoint of a line segment and to find the distance between two points. Coordinate geometry can also be used.
Geometry 1-6 Midpoint and Distance. Vocabulary Coordinate Plane- a plane divided into four regions by a horizontal line (x-axis) and a vertical line (y-axis).

Geometry 1-6 Midpoint and Distance. Vocabulary Coordinate Plane- a plane divided into four regions by a horizontal line (x-axis) and a vertical line (y-axis).
Use Midpoint and Distance Formulas

Use Midpoint and Distance Formulas
Concurrent Lines Geometry Mrs. King Unit 4, Day 7.

Concurrent Lines Geometry Mrs. King Unit 4, Day 7.
Coordinate Geometry. Time is running out!!!!! The Tuesday after Thanksgiving break (11/30) is the last day to turn in any work from Unit 3 – Geometry.

Coordinate Geometry. Time is running out!!!!! The Tuesday after Thanksgiving break (11/30) is the last day to turn in any work from Unit 3 – Geometry.
Midpoint and Distance Formulas Goal 1 Find the Midpoint of a Segment Goal 2 Find the Distance Between Two Points on a Coordinate Plane 12.6.

Midpoint and Distance Formulas Goal 1 Find the Midpoint of a Segment Goal 2 Find the Distance Between Two Points on a Coordinate Plane 12.6.
Unit 5.

Unit 5.
Deriving big formulas with Derive and what happened then David Sjöstrand Sweden.

Deriving big formulas with Derive and what happened then David Sjöstrand Sweden.

Similar presentations

Ads by Google