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5.02 Review: Identifying congruent triangles

Lesson

We say that two triangles are congruent if one can be moved, rotated, and possibly reflected to lie on top of each other exactly. You can think of congruence as a more precise way of saying that two triangles are "the same". Here is an example to illustrate:

Here we are told by the markings on each triangle that the three sides are equal, and the three angles are equal as well - this is the given information. With a reflection, a rotation, and some translation, we will be able to place these triangles directly on top of each other.

Most of the time we are not given all three sides and all three angles. So the big question is: what is the minimum amount of information we need to know about two triangles to conclude that they are congruent? It turns out there are five different sets of information, all of which are sufficient to demonstrate congruence.


Side-side-side congruence (SSS)

If we know that each side of one triangle has a matching congruent side in the other triangle, then the triangles must be congruent. You can try this yourself with three straight objects; you can only make one triangle without changing the lengths, remembering that we are counting mirror images as being congruent as well:

This kind of congruence is called side-side-side, or just SSS.

 


Side-angle-side congruence (SAS)

If we know that two triangles have a pair of matching sides, and the angles between each pair are congruent, then the triangles must be congruent. You can try this yourself with any two straight objects - if you hold them together at a point and a certain angle apart along the rest of their lengths, there is only one triangle you can form by joining the ends together:

This kind of congruence is called side-angle-side, or just SAS.

 

Warning: there is no SSA!

It is possible to have two triangles with a matching pair of sides and a matching angle that are not congruent, like these two:

Using two congruent sides and a congruent angle we have built two obviously non-congruent triangles!

Try using this applet to find the two different triangles with two congruent sides and a congruent angle, just like the picture above:


Hypotenuse-leg congruence (HL)

This congruence test also uses two sides, and is an exception to the "the congruent angle must be between two congruent sides" rule. However, it only applies to right triangles. If two right triangles have congruent hypotenuses and one pair of legs are congruent, then the triangles must be congruent overall.

This congruence test is called hypotenuse-leg, or just HL.


Angle-side-angle and angle-angle-side congruences (ASA and AAS)

What if we only know that one side is congruent? In this case we need to know that there are two pairs of congruent angles. There are different cases that we need to treat separately, the first being when the two given angles lie on either end of the given side:

The dashed line meets the dotted line at exactly one point, so we can only build one triangle from this information.

This kind of congruence is called angle-side-angle congruence, or just ASA.

The other way to use a single pair of congruent sides side to prove congruence of triangles is to know one pair of angles on the congruent sides are equal, and that the angles opposite the congruent sides are also equal:

The dashed line is placed at the correct angle to the segment. If the angle opposite is known, only one of the dotted lines from the other end of the segment will make this particular angle with the dashed line. 

This kind of congruence is called angle-angle-side congruence, or just AAS.

Here is a summary of the five triangle congruence tests.

Proving congruence in triangles

To show that two triangles are congruent, it is sufficient to demonstrate the following:

  • Side-side-side, or SSS
    • The two triangles have three pairs of congruent sides
  • Side-angle-side, or SAS
    • The two triangles have two pairs of congruent sides, and the angles between these sides are also congruent
  • Hypotenuse-leg, or HL
    • The two triangles are right-angled, have congruent hypotenuses, and have one pair of congruent legs
  • Angle-side-angle, or ASA
    • The two triangles have one pair of congruent sides, and two pairs of congruent angles at either end of the congruent sides.
  • Angle-angle-side, or AAS
    • The two triangles have one pair of congruent sides, one pair of congruent angles at the end of the congruent sides, and one pair of congruent angles opposite the congruent sides.

 

Practice questions

QUESTION 1

Consider the following three triangles:

  1. Which of the following triangles are congruent?

    A

    B

    C
  2. State the reason why the two previous triangles are congruent:

    HL: Two right triangles with hypotenuse and one leg are congruent.

    A

    AAS: A pair of corresponding angles and a non-included side are congruent.

    B

    SSS: All three corresponding sides are congruent.

    C

    SAS: A pair of corresponding sides and the included angle are congruent.

    D

QUESTION 2

Consider the given triangles.

  1. Do we have enough information to deduce that the two triangles are congruent?

    Yes

    A

    No

    B

QUESTION 3

Consider the adjacent figure:

A parallelogram labeled SRQP with vertices S,R, Q, and P in a clockwise direction starting from S at the upper left vertex. A diagonal is drawn from vertex S to vertex Q, dividing the parallelogram into two triangles thus also dividing the angles at vertex S and Q. For the triangle on the bottom side, one of the divided angles at vertex S which is angle (PSQ), is drawn with a double arc indicator. On the opposite side of the diagonal line which is the other triangle on the upper side, the same double arc indicator is drawn at one of the divided angles at vertex Q which is angle (RQS). (Don't directly say that the angle (RQS) is the angle congruent to angle (PSQ). 


 
  1. From the information given on the diagram, which angle is congruent to $\angle PSQ$PSQ?

    $\angle PQS$PQS

    A

    $\angle RQS$RQS

    B

    $\angle RSQ$RSQ

    C
  2. State the most direct reason why $\triangle PSQ$PSQ is congruent to $\triangle RQS$RQS.

    SAS: A pair of corresponding sides and the included angle are congruent.

    A

    HL: Two right triangles with hypotenuse and one leg are congruent.

    B

    ASA: A pair of corresponding angles and the included side are congruent.

    C

    AAS: A pair of corresponding angles and a non-included side are congruent.

    D

    SSS: All three corresponding sides are congruent.

    E

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