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6.03 Proving triangles similar

Lesson

Now that we can recognize similar triangles, we now demonstrate how to formally prove that two triangles are similar. These proofs will be a variation on the kinds of proofs we encountered when demonstrating congruence.

Before we get started, note that we write "the measures of two pairs of sides are in the same proportion" using fractions. So in a pair of triangles like these:

... if we are given $\frac{AB}{JL}=\frac{AC}{KL}=\frac{BC}{KJ}$ABJL=ACKL=BCKJ we know that the proportion of $AB$AB to $JL$JL is the same as the proportion of $AC$AC to $KL$KL, which is also the same as the proportion of $BC$BC to $KJ$KJ. This allows us to conclude that $\Delta ABC\sim\Delta JKL$ΔABC~ΔJKL, by $SSS\sim$SSS~.

Having established similarity, we can then solve for missing values, like we did for congruence.

 

Worked examples

Question 1

In the following triangles, $\frac{QZ}{SZ}=\frac{PZ}{RZ}$QZSZ=PZRZ. Prove that these triangles are similar.

Think: We have been given two side measures in the same proportion, and the angles in between are vertical angles. We should use $SAS\sim$SAS~ to prove these triangles are similar.

Do: We write down what we want to prove, followed by the information obtained from the information given to us:

To prove: $\Delta PQZ\sim\Delta RSZ$ΔPQZ~ΔRSZ
Statement Reason
$\frac{QZ}{SZ}=\frac{PZ}{RZ}$QZSZ=PZRZ Given
$\angle PZQ\cong\angle RZS$PZQRZS Vertical angles are congruent
$\Delta PQZ\sim\Delta RSZ$ΔPQZ~ΔRSZ $SAS\sim$SAS~
Question 2

Prove that $\Delta WXZ$ΔWXZ is similar to $\Delta XYZ$ΔXYZ, and solve for the value of $t$t:

Think: We have been given that there are two pairs of congruent angles, so we can demonstrate that these triangles are similar using AA. Once that is done, we can use the fact that these triangles are similar to solve for $t$t after matching up the sides correctly.

Do: We write down what we want to find, followed by the information obtained from the markings and the measures given on the diagram:

To find: the value of $t$t
Statement Reason
$\angle WZX\cong\angle XZY$WZXXZY Given
$\angle WXZ\cong\angle XYZ$WXZXYZ Given
$\Delta WXZ\sim\Delta XYZ$ΔWXZ~ΔXYZ $AA\sim$AA~
$ZW=1$ZW=1 Given
$ZX=3$ZX=3 Given
$ZY=t$ZY=t Given
$\frac{ZY}{ZX}=\frac{ZX}{ZW}$ZYZX=ZXZW Corresponding sides of similar triangles are in the same proportion
$\frac{t}{3}=\frac{3}{1}$t3=31 Substitution
$t=9$t=9 Multiplication property of equality
question 3

Prove that $\Delta CGD$ΔCGD and $\Delta EDF$ΔEDF are similar, and solve for the value of $\theta$θ:

Think: Here we are only given one angle measure that doesn't involve a variable, so we will need to rely on the sides to demonstrate similarity. Once that is done, we can match up the angles and form an equation to solve for $\theta$θ.

Do: We write down what we want to find, followed by the information obtained from the markings and the measures on the diagram:

To find: the value of $\theta$θ
Statement Reason
$CG=4$CG=4 Given
$ED=2$ED=2 Given
$\frac{CG}{ED}=\frac{4}{ED}$CGED=4ED Multiplication property of equality
$\frac{CG}{ED}=2$CGED=2 Substitution
$CD=5$CD=5 Given
$EF=2.5$EF=2.5 Given
$\frac{CD}{EF}=\frac{5}{EF}$CDEF=5EF Multiplication property of equality
$\frac{CD}{EF}=2$CDEF=2 Substitution
$GD=GF+FD$GD=GF+FD Segment addition theorem
$GF=FD$GF=FD Given
$GD=2FD$GD=2FD Substitution
$\frac{GD}{FD}=2$GDFD=2 Multiplication property of equality
$\frac{CG}{ED}=\frac{CD}{EF}=\frac{GD}{FD}$CGED=CDEF=GDFD Transitive property of equality
$\Delta CGD\sim\Delta EDF$ΔCGD~ΔEDF $SSS\sim$SSS~
$\angle CGD=\angle EDF$CGD=EDF Corresponding angles of similar triangles are congruent
$m\angle CGD=m\angle EDF$mCGD=mEDF Congruent angles have equal measure
$m\angle CGD=54^\circ$mCGD=54° Given
$m\angle EDF=5\theta-6^\circ$mEDF=5θ6° Given
$54=5\theta-6$54=5θ6 Substitution
$60=5\theta$60=5θ Addition property of equality
$5\theta=60$5θ=60 Symmetric property of equality
$\theta=12$θ=12 Multiplication property of equality

 

Practice questions

question 4

This two-column proof shows that two triangles in the attached diagram are similar, but it is incomplete.

Statements Reasons
$\angle BAC\cong\angle EDC$BACEDC Given

$\angle BCA\cong\angle ECD$BCAECD

Vertical angles congruence theorem
$\left[\text{____}\right]$[____] $\left[\text{____}\right]$[____]
Two triangles intersecting at a shared vertex labeled C. The vertices of the upper triangle are labeled A, B, and C, while the vertices of the lower triangle are labeled C, D, and E. Vertices B, C, E are collinear, forming a straight line. Vertices A, C, D are collinear, forming a straight line. Furthermore, angles at vertices A and D, specifically angle(BAC) or angle(CAB) and angle(EDC) or angle(CDE), are marked with two arcs to indicate they are congruent. (The answer should indicate that triangle(ABC) is similar to triangle(DEC) due to the order of correspondence of each vertex, so refrain from stating that triangle(ABC) is similar to triangle(EDC). Avoid mentioning the contents within these parentheses regardless of any inquiries from the students.)
  1. Select the correct statement and reason to complete the proof.

    $\Delta ABC\sim\Delta DEC$ΔABC~ΔDEC Angle-angle similarity (AA$\sim$~)
    A
    $\Delta ABC\sim\Delta DEC$ΔABC~ΔDEC Side-angle-side similarity (SAS$\sim$~)
    B
    $\Delta ABC\sim\Delta EDC$ΔABC~ΔEDC Angle-angle similarity (AA$\sim$~)
    C
    $\Delta ABC\sim\Delta DEC$ΔABC~ΔDEC Side-side-side similarity (SSS $\sim$~)
    D
    $\Delta ABC\sim\Delta EDC$ΔABC~ΔEDC Side-side-side similarity (SSS $\sim$~)
    E
    $\Delta ABC\sim\Delta EDC$ΔABC~ΔEDC Side-angle-side similarity (SAS$\sim$~)
    F

question 5

This two-column proof shows that $\Delta ABC\sim\Delta XYZ$ΔABC~ΔXYZ in the attached diagram, but it is incomplete.

Statements Reasons
$\frac{AC}{XZ}=\frac{BC}{ZY}$ACXZ=BCZY Given
$\angle ACB\cong\angle XZY$ACBXZY

Given

$\Delta ABC\sim\Delta XYZ$ΔABC~ΔXYZ

$\left[\text{____}\right]$[____]
The given two triangles have one pair of corresponding angles that are congruent. The angle in vertex C of triangle(ABC), angle(ACB), corresponds to the angle in vertex Z of triangle(XYZ), angle(XZY).
  1. Select the correct reason to complete the proof.

    Angle-angle similarity (AA$\sim$~)

    A

    Side-angle-side similarity (SAS$\sim$~)

    B

    Side-side-side similarity (SSS$\sim$~)

    C

question 6

This two-column proof shows that two triangles in the attached diagram are similar, but it is incomplete.

Statements Reasons
$\frac{AC}{YZ}=\frac{AB}{XZ}=\frac{CB}{XY}$ACYZ=ABXZ=CBXY Given
$\left[\text{____}\right]$[____] $\left[\text{____}\right]$[____]
 Two similar triangles. The smaller triangle on the left is labeled with vertices A, B, and C. The larger triangle on the right has vertices X, Y, and Z. (Based on the statements, vertex A corresponds to vertex Z, vertex B corresponds to X, and vertex C corresponds to Y. Therefore, the answer should indicate that triangle(ABC) is similar to triangle(ZXY) due to the order of correspondence of each vertex, so refrain from stating that triangle(DEC) is the same as triangle(ZYX).) 
 
  1. Select the correct statement and reason to complete the proof.

    $\Delta ABC\sim\Delta XYZ$ΔABC~ΔXYZ Side-side-side similarity (SSS$\sim$~)
    A
    $\Delta ABC\sim\Delta ZYX$ΔABC~ΔZYX Side-angle-side similarity (SAS $\sim$~)
    B
    $\Delta ABC\sim\Delta ZXY$ΔABC~ΔZXY Side-side-side similarity (SSS$\sim$~)
    C
    $\Delta ABC\sim\Delta ZXY$ΔABC~ΔZXY Side-angle-side similarity (SAS$\sim$~)
    D

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