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Circle Theoram

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... xo yo zo 30o A B If OT is a radius and AB is a tangent, find the unknown angles, giving reasons for your answers. The Alternate Segment Theorem. – PowerPoint PPT presentation

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Title: Circle Theoram


1
Circle Theoram
2
Parts
Parts of the Circle
Major Segment
diameter
chord
Minor Segment
Major Sector
Minor Sector
3
Termgy
Introductory Terminology
Arc AB subtends angle x at the centre.
Arc AB subtends angle y at the circumference.
Chord AB also subtends angle x at the centre.
Chord AB also subtends angle y at the
circumference.
4
Th1
5
The angle subtended at the centre of a circle (by
an arc or chord) is twice the angle subtended at
the circumference by the same arc or chord.
(angle at centre)
Watch for this one later.
6
42o (Angle at the centre).
70o(Angle at the centre)
7
(180 2 x 42) 96o (Isos triangle/angle sum
triangle).
48o (Angle at the centre)
124o (Angle at the centre)
(180 124)/2 280 (Isos triangle/angle sum
triangle).
8
Th2
This is just a special case of Theorem 1 and is
referred to as a theorem for convenience.
90o angle in a semi-circle
90o angle in a semi-circle
20o angle sum triangle
90o angle in a semi-circle
60o angle sum triangle
9
Th3
10
Angle x 30o
Angle x angle y 38o
Angle y 40o
11
Th4
12
(No Transcript)
13
If OT is a radius and AB is a tangent, find the
unknown angles, giving reasons for your answers.
180 (90 36) 54o Tan/rad and angle sum of
triangle.
90o angle in a semi-circle
60o angle sum triangle
14
Th5
45o (Alt Seg)
60o (Alt Seg)
75o angle sum triangle
15
Th6
The opposite angles of a cyclic quadrilateral are
supplementary. (They sum to 180o)
Angles p r 180o
Angles y w 180o
Angles x z 180o
Angles q s 180o
16
180 85 95o (cyclic quad)
180 135 45o (straight line)
180 70 110o (cyclic quad)
180 110 70o (cyclic quad)
180 45 135o (cyclic quad)
17
Th7
From any point outside a circle only two tangents
can be drawn and they are equal in length.
18
PQ and PT are tangents to a circle with centre O.
Find the unknown angles giving reasons.
yo
Q
xo
O
90o (tan/rad)
98o
90o (tan/rad)
49o (angle at centre)
360o 278 82o (quadrilateral)
wo
zo
T
P
19
PQ and PT are tangents to a circle with centre O.
Find the unknown angles giving reasons.
zo
Q
O
yo
90o (tan/rad)
xo
180 140 40o (angles sum tri)
50o (isos triangle)
50o (alt seg)
80o
wo
50o
T
P
20
Th8
OS 5 cm (pythag triple 3,4,5)
21
Angle SOT 22o (symmetry/congruenncy)
Angle x 180 112 68o (angle sum triangle)
22
Mixed Q 1
65o (Alt seg)
130o (angle at centre)
25o (tan rad)
25o (isos triangle)
23
Mixed Q 2
22o (cyclic quad)
68o (tan rad)
44o (isos triangle)
68o (alt seg)
24
Proof 1/2
To prove that angle COB 2 x angle CAB
  • Extend AO to D
  • AO BO CO (radii of same circle)
  • Triangle AOB is isosceles(base angles equal)
  • Triangle AOC is isosceles(base angles equal)
  • Angle AOB 180 - 2? (angle sum triangle)
  • Angle AOC 180 - 2? (angle sum triangle)
  • Angle COB 360 (AOB AOC)(lts at point)
  • Angle COB 360 (180 - 2? 180 - 2?)
  • Angle COB 2? 2? 2(? ?) 2 x lt CAB

QED
25
Proof 3
To prove that angle CAB angle BDC
  • With centre of circle O draw lines OB and OC.
  • Angle COB 2 x angle CAB (Theorem 1).
  • Angle COB 2 x angle BDC (Theorem 1).
  • 2 x angle CAB 2 x angle BDC
  • Angle CAB angle BDC

QED
26
Proof 4
27
To prove that the angle between a tangent and a
radius drawn to the point of contact is a right
angle.
To prove that OT is perpendicular to AB
  • Assume that OT is not perpendicular to AB
  • Then there must be a point, D say, on AB such
    that OD is perpendicular to AB.

O
  • Since ODT is a right angle then angle OTD is
    acute (angle sum of a triangle).
  • But the greater angle is opposite the greater
    side therefore OT is greater than OD.

B
T
A
  • But OT OC (radii of the same circle) therefore
    OC is also greater than OD, the part greater than
    the whole which is impossible.
  • Therefore OD is not perpendicular to AB.
  • By a similar argument neither is any other
    straight line except OT.
  • Therefore OT is perpendicular to AB.

Theorem 4
QED
28
Proof 5
To prove that angle BTD angle TCD
2?
?
  • With centre of circle O, draw straight lines OD
    and OT.

?
  • Let angle DTB be denoted by ?.
  • Then angle DTO 90 - ? (Theorem 4 tan/rad)
  • Also angle TDO 90 - ? (Isos triangle)
  • Therefore angle TOD 180 (90 - ? 90 - ?) 2?
    (angle sum triangle)
  • Angle TCD ? (Theorem 1 angle at the centre)
  • Angle BTD angle TCD

QED
29
Proof 6
To prove that angles A C and B D 1800
  • Draw straight lines AC and BD
  • Chord DC subtends equal angles ? (same segment)
  • Chord AD subtends equal angles ? (same segment)
  • Chord AB subtends equal angles ? (same segment)
  • Chord BC subtends equal angles ? (same segment)
  • 2(? ? ? ?) 360o (Angle sum quadrilateral)
  • ? ? ? ? 180o

QED
Angles A C and B D 1800
30
Proof 7
To prove that AP BP.
  • With centre of circle at O, draw straight lines
    OA and OB.
  • OA OB (radii of the same circle)
  • Angle PAO PBO 90o (tangent radius).
  • Draw straight line OP.
  • In triangles OBP and OAP, OA OB and OP is
    common to both.
  • Triangles OBP and OAP are congruent (RHS)
  • Therefore AP BP.

QED
31
Proof 8
To prove that AB BC.
  • From centre O draw straight lines OA and OC.
  • In triangles OAB and OCB, OC OA (radii of same
    circle) and OB is common to both.
  • Angle OBA angle OBC (angles on straight line)
  • Triangles OAB and OCB are congruent (RHS)

QED
  • Therefore AB BC

32
Worksheet 1
Parts of the Circle
33
Worksheet 2
Measure the angle subtended at the centre (y) and
the angle subtended at the circumference (x) in
each case and make a conjecture about their
relationship.
Th1
34
Worksheet 3
To Prove that the angle subtended by an arc or
chord at the centre of a circle is twice the
angle subtended at the circumference by the same
arc or chord.
A
O
B
C
Theorem 1 and 2
35
Worksheet 4
To Prove that angles subtended by an arc or chord
in the same segment are equal.
A
Theorem 3
36
Worksheet 5
To prove that the angle between a tangent and a
radius drawn to the point of contact is a right
angle.
O
B
T
A
Theorem 4
37
Worksheet 6
To prove that the angle between a tangent and a
chord through the point of contact is equal to
the angle subtended by the chord in the alternate
segment.
D
B
O
C
T
A
Theorem 5
38
Worksheet 7
To prove that the opposite angles of a cyclic
quadrilateral are supplementary (Sum to 180o).
B
A
C
D
?
?
?
?
Theorem 6
Chi
delta
Alpha
Beta
39
Worksheet 8
To prove that the two tangents drawn from a point
outside a circle are of equal length.
A
O
P
B
Theorem 7
40
Worksheet 9
To prove that a line, drawn perpendicular to a
chord and passing through the centre of a circle,
bisects the chord.
O
A
C
B
Theorem 8
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