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A lesson summary for a geometry class where students investigate the properties of isosceles triangles, including angle bisectors, perpendicular bisectors, midpoints, and medians. Students are expected to have prior knowledge of these concepts and be able to use Cabri Geometry II or equivalent software. The objectives include defining an isosceles triangle, identifying its parts, and deducing relationships between its angles and lines of symmetry. Extension objectives involve working with the properties of the line of symmetry and deriving the formula for the area of a kite.
Typology: Lecture notes
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Lesson Summary: Students will investigate the properties of isosceles triangles. Angle bisectors, perpendicular bisectors, midpoints, and medians are also examined in this lesson. A nice introduction is included.
Key Words: Isosceles triangle, midpoint, median, angle bisectors, perpendicular bisectors
Existing Knowledge: The students should be familiar with angle bisectors, perpendicular bisectors, midpoints of a segment, and medians of a triangle. Students should be able to use Cabri to draw lines, plot points, find a midpoint, and measure angles or segments.
Existing Knowledge for Extension: The student should be comfortable with small proofs, particularly proofs dealing with congruent triangles.
Materials: Computer(s) with Cabri Geometry II or equivalent software
Objectives:
Extension Objectives:
Revisit Objective : This lesson also includes a tie in between isosceles triangles and constructions. If your curriculum covers constructions before this lesson, cover this tie in now. If not, save the tie in until constructions are covered in your curriculum.
Procedures: Before the lab: Draw an isosceles triangle on the board or overhead:
Transition to the lab by stating the students will now construct an isosceles triangle, and explore some of its properties using Cabri.
Use a method of your choice to group students.
Try to avoid using an equilateral triangle. Be sure that it is obvious that the base is not the same length as the 2 legs. Then begin to label and define the sides and angles of the triangle.
Define an isosceles triangle as any triangle with 2 congruent sides Define a leg as one of the congruent sides (AB and AC) Define the vertex angle as the angle containing the congruent sides ( A) Define the base as the side opposite the vertex (BC) A review of sides opposite an angle may be necessary Define the base angles as the angles opposite the legs ( B and C) *** Do NOT mention that these angles are congruent this will be discovered in the lab*
In the exploration of the properties of an isosceles triangle you may have realized that the median of the base and vertex, perpendicular bisector of the base and angle bisector of the vertex is the same line. This is called the line of symmetry.
Exploring the line of symmetry:
Create 2 intersecting circles of different sizes. Plot the intersecting points of the two circles. Then draw 2 triangles with the intersection points and each of the circle’s centers. Then connect the 2 centers. [Use the circle tool and the segment tool ]
Now Hide the circles and explore the line segment AB.
In the exploration of the properties of an isosceles triangle you may have realized that the median of the base and vertex, perpendicular bisector of the base and angle bisector of the vertex is the same line. This is called the line of symmetry.
Theorem: In an isosceles triangle, if any 2 of the following facts are true about a line, then all 4 are true, and the line is the line of symmetry.
To prove this theorem, you must prove all 6 possibilities:
a. Assume 1 and 2 are true, and prove the line is the line of symmetry. b. Assume 1 and 3 are true, and prove the line is the line of symmetry. c. Assume 1 and 4 are true, and prove the line is the line of symmetry. d. Assume 2 and 3 are true, and prove the line is the line of symmetry. e. Assume 2 and 4 are true, and prove the line is the line of symmetry. f. Assume 3 and 4 are true, and prove the line is the line of symmetry.
See how many of these parts you can prove. Remember you can assume that the triangle is isosceles, so the base angles and legs are congruent