Download Mth 97 Winter 2013 Sections 4.3 and 4.4 Section 4.3 – Problem

Mth 97
Winter 2013
Sections 4.3 and 4.4
Section 4.3 – Problem Solving Using Triangle Congruence
Isosceles Triangles
Theorem 4.5 – In an isosceles triangle, the angles opposite the congruent sides are congruent.
Given: ∆ABC with AB  AC
A
Prove: B  C
C
B
Subgoal to be prove first: ∆ABC  ∆ACB
Statements
1.
Reasons
AB  AC
1.
2. AC  AB
3. A  A
4. ∆ABC  ∆ACB
5. B  C
2.
3.
4.
5.
Corallary 4.6 – Every equilateral triangle is equiangular.
If
then
Theorem 4.7 – If two angles of a triangle are congruent, then the sides opposite those angles are congruent.
Given: ∆ABC with B  C
A
Prove: AB  AC
C
B
Subgoal to be prove first: ∆ABC  ∆ACB
Statements
Reasons
B  C
C  B
1.
2.
3. BC  BC
4. ∆ABC  ∆ACB
3.
4.
AB  AC
5.
1.
2.
5.
Corallary 4.8 – Every equiangular triangle is equilateral.
If
then
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Mth 97
Winter 2013
Sections 4.3 and 4.4
Theorem 4.7 – If two angles of a triangle are congruent, then the sides opposite those angles are congruent.
A
A
If
then
If
, then
B
C
B
C
Corollary 4.8 – Every equiangular triangle is equilateral.
If
, then
Perpendicular Bisector of a Segment
Definitions:
1) To _____________ means to divide in half.
2) An __________ ________________ of a line segment is a line, line segment or ray that divides the angle
into two congruent angles.
3) The ______________________ __________________ of a line segment is a line, line segment or ray that
passes through the midpoint of the segment and is perpendicular to the line segment.
4) A _________________ of a triangle is a segment whose endpoints are the vertex of an angle of the
triangle and the midpoint of the side opposite that angle.
Theorem 4.9 – In an isosceles triangle, the ray that bisects the vertex angle bisects the base and is
perpendicular to it.
A
A
If
then
B
C
B
D C
See proof on page 210.
Theorem 4.10 – Perpendicular Bisector Theorem
A point is on the perpendicular bisector of a line segment if and only if it is equidistant from the
endpoints of the segment.
P
P
See proof on page 211.
A
B
A
B
P is on the perpendicular bisector of AB if and only if ______________________
An _______________________angle of a triangle is formed by on side of a triangle and an extension of an
adjacent side.
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Mth 97
Winter 2013
Sections 4.3 and 4.4
Theorem 4.11 – Exterior Angle Theorem
The measure of an exterior angle of a triangle is greater than the measure of either of the
nonadjacent interior angles.
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___________ and __________
Proof is on pages 212 – 213.
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Section 4.4 – Basic Geometric Constructions with a Compass and Strait Edge
Construction 1: Copy a line segment
a) Draw a line segment longer than the one you wish to copy.
b) Open your compass to match the length of you wish to copy.
c) Without changing the compass setting, place the tip of the compass at one end of the
new line segment and swing an arc to intersect the segment.
Copy each line segment.
A
B
C
D
Constuct a line segment twice as long as CD .
Construction 2: Copy an Angle
a) Draw a line segment or a ray. This will be one side of the new angle.
b) Place the tip of the compass at the vertex of the angle you wish to copy and swing an arc that
intersects the sides of the angle.
c) Without changing the compass setting, place the tip of your compass on an endpoint of your
copy and swing a similar arc that intersects your copy.
d) Open your compass to match the distance between the intersection points of the arc and the
sides of the angle you are copying.
e) Without changing the compass setting, copy this length on the arc beginning where the arc
intersected the side or your new angle.
f) Draw a segment from the endpoint of your copy (the new vertex) through the intersection of
your arcs. This is the second side of your angle.
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Mth 97
Winter 2013
Sections 4.3 and 4.4
Copy the angle.
Construction 3: Bisect an Angle
a. Place the compass point on the vertex of the angle and swing an arc that intersects both sides of the
angle.
b. Set your compass for any opening that over half the distance between the points where your arc
intersected the sides of your angle. Your will use this setting to draw the next two arcs. Place your
compass point on each of these intersections and draw arcs that interest in the interior of your
angle.
c. Draw a segment or ray from the vertex of your angle through the intersection point of the last two
rays you drew.
Constructing Perpendiculars
Construction 4: Construct a perpendicular to a point on a line by bisecting the straight angle.
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Mth 97
Winter 2013
Sections 4.3 and 4.4
Construction 5: Construct a perpendicular to a line from a point not on the line
a. Place the compass on the point not on the line and swing an arc that intersects the line in two
places.
b. Use the same compass setting to draw the next two arcs. Using each intersection point of the arc
with your line from the first step as a center draw arcs that intersect either above or below your
line.
c. Draw a segment from the point not on your line through the intersection point of your last two arcs
that intersects your line.
Construct a 45°angle by bisecting one of the right angles above.
Construction 6: Construct the Perpendicular Bisector of a Segment
a. Open your compass to more than half the length of the segment to be bisected. Use this compass
setting for this steps a and b. Place your compass on one endpoint and swing an arc above and
below this segment.
b. Place the compass point on the other end of the segment and swing arcs above and below the
segment.
c. Draw a line through the intersection points of the arc.
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Mth 97
Winter 2013
Sections 4.3 and 4.4
Construction 7: Construct and equilateral triangle give the length of one side
a. Open the compass to the length of the segment to be copied. Use this compass setting for both
arcs in the next step.
b. Place the compass on each endpoint and swing an arc either, both arcs above or both below.
c. The intersection point of the two arcs is the third point of your triangle. Use your straight edge to
help you draw the triangle.
Construction 8: Methods of constructing a 30 – 60 right triangle
1. First construct an equilateral triangle.
2. Bisect one of the angles.
See pages 221-222.
1. First construct the perpendicular bisector of a
segment
2. Copy the length of your line segment using one
endpoint as a center so that the second endpoint
of your copy lies on the perpendicular bisector.
Construction 9: Construct a triangle given the lengths of two sides and the included angle
a. Copy the angle.
b. Copy the length of one side of the triangle to a side of the angle.
c. Copy the length of the other side of the triangle to the second side of the angle.
d. Draw a segment connecting the endpoints of the segments you just drew.
Construction 10: Construct a triangle give two angles and the included side
a. Copy the segment.
b. Using one endpoint as a center, copy one of the angles.
c. Using the other endpoint as a center copy the other angle. The intersection point of the two new
sides of the angles you copied is the third vertex of your triangle.
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