How Do You Prove Triangles Are Congruent

How Do You Prove Triangles Are Congruent

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Congruent Figures

Two figures/objects are said to be congruent if they are exactly of the same shape and size. The relationship between two congruent figures is called congruence. We use the symbol ≅ for ‘congruent to’.

  1. Congruence among line segments: Two line segments are congruent if they have the same length.
    How Do You Prove Triangles Are Congruent 1
    Thus, line segment PQ ≅ line segment RS as PQ = RS = 6 cm.
  2. Congruence of Angles: Two angles are congruent if they have the same measure.
    How Do You Prove Triangles Are Congruent 2
    Thus, ∠AO’B ≅ ∠QOP,
    as m ∠AO’B = m ∠QOP = 40°.
  3. Congruence of plane figures: Two plane figures A and B are congruent as they superpose each other. We can write it as figure A ≅ figure B.
    How Do You Prove Triangles Are Congruent 3
  4. Congruence of squares: Two squares are congruent if they have same side length.
    How Do You Prove Triangles Are Congruent 4
    Square PQRS ≅ Square XYZT as PQ = XY.
  5. Congruence of rectangles: Two rectangles are said to be congruent if they have the same length and breadth.
    How Do You Prove Triangles Are Congruent 5
    Rectangle ABCD ≅ Rectangle PQRS as
    AB = PQ and BC = QR.
  6. Congruence of circles: Two circles are congruent if they have the same radius.
    How Do You Prove Triangles Are Congruent 6
    Circle A ≅ Circle B, as radius of A = radius of B = 2 cm.

Congruence of Triangles

Two triangles are congruent if they are copies of each other, and when superposed they cover each other exactly.
How Do You Prove Triangles Are Congruent 7∆ABC and ∆DEF have the same size and shape. They are congruent. So we would express this as ∆ABC ∆DEF. This means that, when we place ∆DEF on ∆ABC, D falls on A, E falls on B and F falls on C, also \(\overline { DE }\) falls along \(\overline { AB } ,\overline { EF }\) falls along \(\overline { BC }\) and \(\overline { DF }\) falls along \(\overline { AC }\).

  • Corresponding angles are: ∠A and ∠D, ∠B and ∠E, ∠C and ∠F.
  • Corresponding vertices are: A and D, B and E, C and F.
  • Corresponding sides are: \(\overline { AB }\) and \(\overline { DE } ,\overline { BC }\) and \(\overline { EF } ,\overline { AC }\) and \(\overline { DF }\).

Hence, three sides and three angles are the six matching parts for the congruence of triangles.

Examples:

1. Write the correspondence between the vertices, sides and angles of the triangles XYZ and MLN, if ∆XYZ ≅ ∆MLN.
Solution:
By the order of letters, we find that
X ↔ M, Y ↔ L and Z ↔ N
∴ XY = ML, YZ = LN, XZ = MN
Also ∠X = ∠M, ∠Y = ∠L and ∠Z = ∠N.

2. In following pairs of triangles, find the correspondence between the triangles so that they are congruent.
In ∆PQR: PQ = 4 cm, QR = 5 cm, PR = 6 cm, ∠P = 60°, ∠Q = 80°, ∠R = 40°.
In ∆XYZ: XY = 6 cm, ZY = 5 cm, XZ = 4 cm, ∠X = 60°, ∠Y = 40°, ∠Z = 80°.
Solution:
Let us draw the triangles and write the measures of their corresponding parts along with them.
How Do You Prove Triangles Are Congruent 8
From the above figures, we note that
PQ = XZ, QR = YZ, PR = XY
and ∠P = ∠X, ∠Q = ∠Z, ∠R = ∠Y
∴ P ↔ X, Q ↔ Z and R ↔ Y
Hence, ∆PQR ≅ ∆XZY

Read More:

Some more results based on congruent triangles:  

  1. If two sides of a triangle are unequal, then the longer side has the greater angle opposite to it.
  2. In a triangle, the greater angle has the longer side opposite to it.
  3. Of all the line segments that can be drawn to a given line, from a point not lying on it, the perpendicular line segment is the shortest.
  4. The sum of any two sides of a triangle is greater than its third side.
  5. The difference between any two sides of a triangle is less than its third side.
  6. Exterior angle is greater than one opposite interior angle.

Congruent Triangles Example Problems With Solutions

Example 1:    Find the relation between angles in figure.
How Do You Prove Triangles Are Congruent 9
Solution:    ∵ yz > xz > xy
⇒∠x > ∠y > ∠z.
(∵ Angle opposite to longer side is greater)

Example 2:    Find the relation between the sides of triangle in figure.
How Do You Prove Triangles Are Congruent 10
Solution:    ∵ ∠D > ∠E > ∠F
∴EF > DF > DE
{∵ side opposite to greater angle is longer}

Example 3:    Find ∠ACD then what is the relation between (i) ∠ACD, ∠ABC (ii) ∠ACD & ∠A
How Do You Prove Triangles Are Congruent 11
Solution:    ∠ACD + 40° = 180°    (linear pair)
∠ACD = 140°
also ∠A + ∠B = ∠ACD
(exterior angle = sum of opp. interior angles)
⇒ ∠A + 70° = 140° ⇒ ∠A = 140° – 70°
⇒ ∠A = 70°
Now ∠ACD > ∠B
∠ACD > ∠A

Example 4:    In Fig. ∠E > ∠A and ∠C > ∠D. Prove that AD > EC.
How Do You Prove Triangles Are Congruent 12
Solution:    In ∆ABE, it is given that
∠E > ∠A
⇒ AB > BE       …. (i)
In ∆BCD, it is given that
∠C > ∠D
⇒ BD > BC       …. (ii)
Adding (i) and (ii), we get
AB + BD > BE + BC ⇒AD > EC

Example 5:    AB and CD are respectively the smallest and longest sides of a quadrilateral ABCD (see figure). Show that ∠A > ∠C.
How Do You Prove Triangles Are Congruent 13
Solution:    Draw diagonal AC.
How Do You Prove Triangles Are Congruent 14
In ∆ABC, AB < BC    {∵ AB is smallest}
⇒ ∠3 < ∠1       ……(1)
{angle opp. to longer side is larger}
Also in ∆ADC
AD < CD ∵ CD is longest
⇒ ∠4 < ∠2       …..(2)
adding equation (1) & (2)
∠3 + ∠4 < ∠1 + ∠2
∠C < ∠A
or ∠A > ∠C Proved.

Example 6:    In given figure, PR > PQ and PS bisects ∠QPR. Prove that ∠PSR > ∠PSQ.
How Do You Prove Triangles Are Congruent 15
Solution:    In ∆PQR, PR > PQ
⇒ ∠Q > ∠R      ……(1)
{angle opposite to longer side is greater}
and ∠1 = ∠2     (∵ PS is ∠bisector)      ….(2)
How Do You Prove Triangles Are Congruent 16
Now for ∆PQS, ∠PSR = ∠Q + ∠1       ….(3)
{exterior angle = sum of opposite interior angle}
How Do You Prove Triangles Are Congruent 17
& for ∆PSR, ∠PSQ = ∠R + ∠2          ….(4)
By equation (1), (2), (3), (4), ∠PSR > ∠PSQ
Proved.

Example 7:    AD, BE and CF, the altitudes of ∆ABC are equal. Prove that ∆ABC is an equilateral triangle.
Solution:
In right triangles BCE and BFC, we have
Hyp. BC = Hyp. BC
BE = CF [Given]
So, by RHS criterion of congruence,
How Do You Prove Triangles Are Congruent 18
ΔBCE ≅ ΔBFC.
⇒ ∠B = ∠C
⇒ AC = AB …. (i)
[∵ Sides opposite to equal angles are equal]
Similarly, ΔABD ≅ ΔABE
⇒ ∠B = ∠A
[∵ Corresponding parts of congruent triangles are equal]
⇒ AC = BC …. (ii)
[∵ Sides opposite to equal angles are equal]
From (i) and (ii), we get
AB = BC = AC
Hence, ΔABC is an equilateral triangle.

Example 8:    In Fig. AD = BC and BD = CA.
How Do You Prove Triangles Are Congruent 19
Prove that ∠ADB = ∠BCA  and ∠DAB = ∠CBA.
Solution:
In triangles ABD and ABC, we have
AD = BC [Given]
BD = CA [Given]
and AB = AB [Common]
So, by SSS congruence criterion, we have
ΔABD ≅ ΔCBA ⇒ ∠DAB = ∠ABC
[∵ corresponding parts of congruent triangles are equal]
⇒ ∠DAB = ∠CBA

Example 9:    In Fig. PQ > PR. QS and RS are the bisectors of ∠Q and ∠R respectively. Prove that SQ > SR.
D:\Work\Aplustopper\Content\Maths\How Do You Prove Triangles Are Congruent 20.png
Solution:
In ΔPQR, we have
PQ > PR [Given]
⇒ ∠PRQ > ∠PQR
[∵ Angle opp. to larger side of a triangle is greater]
⇒ \(\frac { 1 }{ 2 } \)∠PRQ > \(\frac { 1 }{ 2 } \)∠PQR
[∵ RS and QS are bisectors of ∠PRQ and ∠PQR respectively]
⇒ ∠SRQ > ∠SQR
⇒ SQ > SR
[∵ Side opp. to greater angle is larger]

Example 10:    In Fig.
How Do You Prove Triangles Are Congruent 21
if x > y, show that ∠M > ∠N.
Solution:    
We have,
∠LMN + xº = 180º …. (i)
[Angles of a linear pair]
⇒ ∠LNM + yº = 180º …. (ii)
[Angles of a linear pair]
∴ ∠LMN + xº = ∠LNM + yº
But x > y. Therefore,
∠LMN < ∠LNM
⇒ ∠LNM > ∠LMN
⇒ LM > LN
[∵ Side opp. to greater angle is larger]

Example 11:    In Fig. AB > AC. Show that AB > AD.
How Do You Prove Triangles Are Congruent 22
Solution:
In ΔABC, we have
AB > AC [Given]
⇒ ∠ACB > ∠ABC …. (i)
[∵ Angle opp. to larger side is greater]
Now, in ΔACD, CD is produced to B, forming an ext ∠ADB.
⇒ ∠ADB > ∠ACD
[∵ Exterior angle of Δ is greater than each of interior opp. angle]
⇒ ∠ADB > ∠ACB … (ii)
[∴ ∠ACD = ∠ACB]
From (i) and (ii), we get
∠ADB > ∠ABC
⇒ ∠ADB > ∠ABD [∵ ∠ABC = ∠ABD]
⇒ AB > AD
[∵ Side opp. to greater angle is larger]

Example 12:    Prove that any two sides of a triangle are together greater than twice the median drawn to the third side.
How Do You Prove Triangles Are Congruent 23
Solution:
To prove: AB + AC > 2 AD
Construction: Produce AD to E such that AD = DE. Join EC.
Proof: In Δ’s ADB and EDC, we have
AD = DE       [By construction]
BD = DC        [∵ D is the mid point of BC]
and, ∠ADB = ∠EDC   [Vertically opp. angles]
So, by SAS criterion of congruence
⇒ ΔADB ≅ ΔEDC
⇒ AB = EC     [∵ corresponding parts of congruent triangles are equal]
Now in ΔAEC, we have
AC + EC > AE      [∵ Sum of any two sides of a Δ is greater than the third]
⇒ AC + AB > 2 AD
[∵ AD =DE ∴ AE = AD + DE = 2AD and EC = AB]

Example 13:    In Fig. PQR is a triangle and S is any point in its interior, show that SQ + SR  < PQ + PR.
How Do You Prove Triangles Are Congruent 24
Solution:
Given: S is any point in the interior of ΔPQR.
To Prove: SQ + SR < PQ + PR
Construction: Produce QS to meet PR in T.
Proof: In PQT, we have
PQ + PT > QT     [∵ Sum of the two sides of a Δ is greater than the third side]
⇒ PQ + PT > QS + ST      …. (i)
[∵ QT = QS + ST]
In ΔRST, we have
ST + TR > SR       …. (ii)
Adding (i) and (ii), we get
PQ + PT + ST + TR > SQ + ST + SR
⇒ PQ + (PT + TR) > SQ + SR
⇒ PQ + PR > SQ + SR ⇒ SQ + SR < PQ + PR.

Example 14:    In ∆PQR S is any point on the side QR. Show that PQ + QR + RP > 2 PS.
How Do You Prove Triangles Are Congruent 25
Solution:
In ΔPQS, we have
PQ + QS > PS        … (i)
[∵ Sum of the two sides of a Δ is greater than the third side]
Similarly, in ΔPRS, we have
RP + RS > PS       …. (ii)
Adding (i) and (ii), we get
(PQ + QS) + (RP + RS) > PS + PS
⇒ PQ + (QS + RS) + RP > 2 PS
⇒ PQ + QR + RP > 2 PS
[∵ QS + RS = QR]

Example 15:    In Fig. T is a point on side QR of ∆PQR and S is a point such that RT = ST.
How Do You Prove Triangles Are Congruent 26
Prove that PQ + PR > QS.
Solution:
In ΔPQR, we have
PQ + PR > QR
⇒ PQ + PR > QT + RT [∵ QR = QT + RT]
⇒ PQ + PR > QT + ST    …. (i)
[∵ RT = ST (Given)]
In ΔQST, we have
QT + ST > QS   …. (ii)
From (i) and (ii), we get
PQ + PR > QS.

Example 16:    Find ∠OBA in given figure
How Do You Prove Triangles Are Congruent 27
Solution:
∵ ∠AOB + 198° = 360°
∠AOB = 360° – 198° = 162°
and OA = OB = radius of circle
∠A = ∠B = x (let)
∴ x + x + 162° = 180° (a.s.p.)
2x + 18°
x = 9°
∴ ∠OBA = 9°.