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Page 1: 11X1 T07 03 congruent triangles (2010)

Congruent Triangles

Page 2: 11X1 T07 03 congruent triangles (2010)

Congruent TrianglesIn order to prove congruent triangles you require three pieces of information.

Page 3: 11X1 T07 03 congruent triangles (2010)

Congruent TrianglesIn order to prove congruent triangles you require three pieces of information.Hint: Look for a side that is the same in both triangles first.

Page 4: 11X1 T07 03 congruent triangles (2010)

Congruent TrianglesIn order to prove congruent triangles you require three pieces of information.Hint: Look for a side that is the same in both triangles first.

TESTS

Page 5: 11X1 T07 03 congruent triangles (2010)

Congruent TrianglesIn order to prove congruent triangles you require three pieces of information.Hint: Look for a side that is the same in both triangles first.

TESTS(1) Side-Side-Side (SSS)

Page 6: 11X1 T07 03 congruent triangles (2010)

Congruent TrianglesIn order to prove congruent triangles you require three pieces of information.Hint: Look for a side that is the same in both triangles first.

TESTS(1) Side-Side-Side (SSS)

Page 7: 11X1 T07 03 congruent triangles (2010)

Congruent TrianglesIn order to prove congruent triangles you require three pieces of information.Hint: Look for a side that is the same in both triangles first.

TESTS(1) Side-Side-Side (SSS)

Page 8: 11X1 T07 03 congruent triangles (2010)

Congruent TrianglesIn order to prove congruent triangles you require three pieces of information.Hint: Look for a side that is the same in both triangles first.

TESTS(1) Side-Side-Side (SSS)

Page 9: 11X1 T07 03 congruent triangles (2010)

Congruent TrianglesIn order to prove congruent triangles you require three pieces of information.Hint: Look for a side that is the same in both triangles first.

TESTS(1) Side-Side-Side (SSS)

Page 10: 11X1 T07 03 congruent triangles (2010)

Congruent TrianglesIn order to prove congruent triangles you require three pieces of information.Hint: Look for a side that is the same in both triangles first.

TESTS(1) Side-Side-Side (SSS)

(2) Side-Angle-Side (SAS)

Page 11: 11X1 T07 03 congruent triangles (2010)

Congruent TrianglesIn order to prove congruent triangles you require three pieces of information.Hint: Look for a side that is the same in both triangles first.

TESTS(1) Side-Side-Side (SSS)

(2) Side-Angle-Side (SAS)

Page 12: 11X1 T07 03 congruent triangles (2010)

Congruent TrianglesIn order to prove congruent triangles you require three pieces of information.Hint: Look for a side that is the same in both triangles first.

TESTS(1) Side-Side-Side (SSS)

(2) Side-Angle-Side (SAS)

Page 13: 11X1 T07 03 congruent triangles (2010)

Congruent TrianglesIn order to prove congruent triangles you require three pieces of information.Hint: Look for a side that is the same in both triangles first.

TESTS(1) Side-Side-Side (SSS)

(2) Side-Angle-Side (SAS)

Page 14: 11X1 T07 03 congruent triangles (2010)

Congruent TrianglesIn order to prove congruent triangles you require three pieces of information.Hint: Look for a side that is the same in both triangles first.

TESTS(1) Side-Side-Side (SSS)

(2) Side-Angle-Side (SAS)

Page 15: 11X1 T07 03 congruent triangles (2010)

Congruent TrianglesIn order to prove congruent triangles you require three pieces of information.Hint: Look for a side that is the same in both triangles first.

TESTS(1) Side-Side-Side (SSS)

(2) Side-Angle-Side (SAS)NOTE:must be included

angle

Page 16: 11X1 T07 03 congruent triangles (2010)

(3) Angle-Angle-Side (AAS)

Page 17: 11X1 T07 03 congruent triangles (2010)

(3) Angle-Angle-Side (AAS)

Page 18: 11X1 T07 03 congruent triangles (2010)

(3) Angle-Angle-Side (AAS)

Page 19: 11X1 T07 03 congruent triangles (2010)

(3) Angle-Angle-Side (AAS)

Page 20: 11X1 T07 03 congruent triangles (2010)

(3) Angle-Angle-Side (AAS)

Page 21: 11X1 T07 03 congruent triangles (2010)

(3) Angle-Angle-Side (AAS)

NOTE:sides must be in

the same position

Page 22: 11X1 T07 03 congruent triangles (2010)

(3) Angle-Angle-Side (AAS)

NOTE:sides must be in

the same position(4) Right Angle-Hypotenuse-Side (RHS)

Page 23: 11X1 T07 03 congruent triangles (2010)

(3) Angle-Angle-Side (AAS)

NOTE:sides must be in

the same position(4) Right Angle-Hypotenuse-Side (RHS)

Page 24: 11X1 T07 03 congruent triangles (2010)

(3) Angle-Angle-Side (AAS)

NOTE:sides must be in

the same position(4) Right Angle-Hypotenuse-Side (RHS)

Page 25: 11X1 T07 03 congruent triangles (2010)

(3) Angle-Angle-Side (AAS)

NOTE:sides must be in

the same position(4) Right Angle-Hypotenuse-Side (RHS)

Page 26: 11X1 T07 03 congruent triangles (2010)

(3) Angle-Angle-Side (AAS)

NOTE:sides must be in

the same position(4) Right Angle-Hypotenuse-Side (RHS)

Page 27: 11X1 T07 03 congruent triangles (2010)

e.g. (1985)

A B

CD

S

In the diagram ABCD is a quadrilateral.The diagonals AC and BD intersect at right angles, and BASDAS

Page 28: 11X1 T07 03 congruent triangles (2010)

e.g. (1985)

A B

CD

S

In the diagram ABCD is a quadrilateral.The diagonals AC and BD intersect at right angles, and BASDAS

(i) Prove DA = AB

Page 29: 11X1 T07 03 congruent triangles (2010)

e.g. (1985)

A B

CD

S

In the diagram ABCD is a quadrilateral.The diagonals AC and BD intersect at right angles, and BASDAS

(i) Prove DA = AB ABASDAS given

Page 30: 11X1 T07 03 congruent triangles (2010)

e.g. (1985)

A B

CD

S

In the diagram ABCD is a quadrilateral.The diagonals AC and BD intersect at right angles, and BASDAS

(i) Prove DA = AB ABASDAS given SAS common is

Page 31: 11X1 T07 03 congruent triangles (2010)

e.g. (1985)

A B

CD

S

In the diagram ABCD is a quadrilateral.The diagonals AC and BD intersect at right angles, and BASDAS

(i) Prove DA = AB ABASDAS given SAS common is

ABSADSA given 90

Page 32: 11X1 T07 03 congruent triangles (2010)

e.g. (1985)

A B

CD

S

In the diagram ABCD is a quadrilateral.The diagonals AC and BD intersect at right angles, and BASDAS

(i) Prove DA = AB ABASDAS given SAS common is

ABSADSA given 90 AASBASDAS

Page 33: 11X1 T07 03 congruent triangles (2010)

e.g. (1985)

A B

CD

S

In the diagram ABCD is a quadrilateral.The diagonals AC and BD intersect at right angles, and BASDAS

(i) Prove DA = AB ABASDAS given SAS common is

ABSADSA given 90 AASBASDAS matching sides in 'sDA AB

Page 34: 11X1 T07 03 congruent triangles (2010)

(ii) Prove DC = CB

Page 35: 11X1 T07 03 congruent triangles (2010)

(ii) Prove DC = CB SABDA proven

Page 36: 11X1 T07 03 congruent triangles (2010)

(ii) Prove DC = CB SABDA proven ABASDAS given

Page 37: 11X1 T07 03 congruent triangles (2010)

(ii) Prove DC = CB SABDA proven

SAC common is ABASDAS given

Page 38: 11X1 T07 03 congruent triangles (2010)

(ii) Prove DC = CB SABDA proven

SAC common is ABASDAS given

SASBACDAC

Page 39: 11X1 T07 03 congruent triangles (2010)

(ii) Prove DC = CB SABDA proven

SAC common is ABASDAS given

SASBACDAC matching sides in 'sDC CB

Page 40: 11X1 T07 03 congruent triangles (2010)

(ii) Prove DC = CB SABDA proven

SAC common is ABASDAS given

SASBACDAC matching sides in 'sDC CB

Types Of TrianglesIsosceles Triangle

A

B C

Page 41: 11X1 T07 03 congruent triangles (2010)

(ii) Prove DC = CB SABDA proven

SAC common is ABASDAS given

SASBACDAC matching sides in 'sDC CB

Types Of TrianglesIsosceles Triangle

A

B C

ABCACAB isoscelesin sides

Page 42: 11X1 T07 03 congruent triangles (2010)

(ii) Prove DC = CB SABDA proven

SAC common is ABASDAS given

SASBACDAC matching sides in 'sDC CB

Types Of TrianglesIsosceles Triangle

A

B C

ABCACAB isoscelesin sides ABCCB isoscelesin s'

Page 43: 11X1 T07 03 congruent triangles (2010)

(ii) Prove DC = CB SABDA proven

SAC common is ABASDAS given

SASBACDAC matching sides in 'sDC CB

Types Of TrianglesIsosceles Triangle

A

B C

ABCACAB isoscelesin sides ABCCB isoscelesin s'

Equilateral TriangleA

B C

Page 44: 11X1 T07 03 congruent triangles (2010)

(ii) Prove DC = CB SABDA proven

SAC common is ABASDAS given

SASBACDAC matching sides in 'sDC CB

Types Of TrianglesIsosceles Triangle

A

B C

ABCACAB isoscelesin sides ABCCB isoscelesin s'

Equilateral Triangle ABCBCACAB lequilaterain sides A

B C

Page 45: 11X1 T07 03 congruent triangles (2010)

(ii) Prove DC = CB SABDA proven

SAC common is ABASDAS given

SASBACDAC matching sides in 'sDC CB

Types Of TrianglesIsosceles Triangle

A

B C

ABCACAB isoscelesin sides ABCCB isoscelesin s'

Equilateral Triangle ABCBCACAB lequilaterain sides

ABCCBA lequilaterain s' 60

A

B C

Page 46: 11X1 T07 03 congruent triangles (2010)

Triangle Terminology

Page 47: 11X1 T07 03 congruent triangles (2010)

Triangle Terminology

Altitude: (perpendicular height)Perpendicular from one side passing through the vertex

Page 48: 11X1 T07 03 congruent triangles (2010)

Triangle Terminology

Altitude: (perpendicular height)Perpendicular from one side passing through the vertex

Page 49: 11X1 T07 03 congruent triangles (2010)

Triangle Terminology

Altitude: (perpendicular height)Perpendicular from one side passing through the vertex

Median: Line joining vertex to the midpoint of the opposite side

Page 50: 11X1 T07 03 congruent triangles (2010)

Triangle Terminology

Altitude: (perpendicular height)Perpendicular from one side passing through the vertex

Median: Line joining vertex to the midpoint of the opposite side

Page 51: 11X1 T07 03 congruent triangles (2010)

Triangle Terminology

Altitude: (perpendicular height)Perpendicular from one side passing through the vertex

Median: Line joining vertex to the midpoint of the opposite side

Right Bisector: Perpendicular drawn from the midpoint of a side

Page 52: 11X1 T07 03 congruent triangles (2010)

Triangle Terminology

Altitude: (perpendicular height)Perpendicular from one side passing through the vertex

Median: Line joining vertex to the midpoint of the opposite side

Right Bisector: Perpendicular drawn from the midpoint of a side

Page 53: 11X1 T07 03 congruent triangles (2010)

Exercise 8C; 2, 4beh, 5, 7, 11a, 16, 18, 19a, 21, 22, 26


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