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Circle Theoram

Circle Theoram. Parts. Circumference. Major Arc. Tangent. radius. Tangent. Minor Arc. Tangent. Parts of the Circle. Major Segment. diameter. chord. Minor Segment. Major Sector. Minor Sector. Term’gy. y o. y o. x o. o. o. o. x o. B. B. A. B. A. A. x o. y o.

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Circle Theoram

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  1. Circle Theoram

  2. Parts Circumference Major Arc Tangent radius Tangent Minor Arc Tangent Parts of the Circle Major Segment diameter chord Minor Segment Major Sector Minor Sector

  3. Term’gy yo yo xo o o o xo B B A B A A xo yo 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 Theorem 1 Measure the angles at the centre and circumference and make a conjecture. xo xo xo o o o o yo yo yo yo xo xo xo xo xo o o o o yo yo yo yo

  5. Theorem 1 Measure the angles at the centre and circumference and make a conjecture. xo xo xo o o o o 2xo 2xo 2xo xo 2xo Angle x is subtended in the minor segment. xo xo xo xo o o o o 2xo 2xo 2xo 2xo 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. Example Questions Find the unknown angles giving reasons for your answers. 1 2 xo o o 35o yo 84o A A B B angle x = angle y = 42o (Angle at the centre). 70o(Angle at the centre)

  7. Example Questions Find the unknown angles giving reasons for your answers. 3 4 yo 62o B o o qo po xo 42o A B A angle x = angle p = angle q = angle y = (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 Theorem 2 The angle in a semi-circle is a right angle. Find the unknown angles below stating a reason. Diameter o a 30o c angle a = d o angle b = e angle c = angle d = 70o b angle e = This is just a special case of Theorem 1 and is referred to as a theorem for convenience. 90oangle in a semi-circle 90o angle in a semi-circle 20oangle sum triangle 90oangle in a semi-circle 60oangle sum triangle

  9. Th3 Angles subtended by an arc or chord in the same segment are equal. Theorem 3 yo xo xo xo yo xo xo

  10. Theorem 3 Angles subtended by an arc or chord in the same segment are equal. Find the unknown angles in each case yo 38o xo 30o 40o yo xo Angle x = 30o Angle x = angle y = 38o Angle y = 40o

  11. Th4 The angle between a tangent and a radius is 90o. (Tan/rad) Theorem 4 o

  12. The angle between a tangent and a radius is 90o. (Tan/rad) Theorem 4 o

  13. 30o o B xo 36o yo zo T A angle x = angle y = angle z = 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 60oangle sum triangle

  14. Th5 Theorem 5 The Alternate Segment Theorem. The angle between a tangent and a chord through the point of contact is equal to the angle subtended by that chord in the alternate segment. Find the missing angles below giving reasons in each case. xo 60o xo yo zo 45o yo yo xo angle x = angle y = angle z = 45o (Alt Seg) 60o (Alt Seg) 75oangle sum triangle

  15. Th6 Theorem 6 Cyclic Quadrilateral Theorem. y p x q r s z w 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. Theorem 6 Cyclic Quadrilateral Theorem. The opposite angles of a cyclic quadrilateral are supplementary. (They sum to 180o) 70o Find the missing angles below given reasons in each case. r x y q 110o p 85o 135o angle x = angle p = angle y = angle q = angle r = 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 Theorem 7 Two Tangent Theorem. R P Q R Q U T T PT = PQ PT = PQ P U From any point outside a circle only two tangents can be drawn and they are equal in length.

  18. Theorem 7 Two Tangent Theorem. From any point outside a circle only two tangents can be drawn and they are equal in length. angle w = angle x = angle y = angle z = 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) zo wo T P

  19. Theorem 7 Two Tangent Theorem. From any point outside a circle only two tangents can be drawn and they are equal in length. angle w = angle x = angle y = angle z = 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 Theorem 8 Chord Bisector Theorem. A line drawn perpendicular to a chord and passing through the centre of a circle, bisects the chord.. Find length OS O O 3 cm S T 8 cm OS = 5 cm (pythag triple: 3,4,5)

  21. Theorem 8 Chord Bisector Theorem. A line drawn perpendicular to a chord and passing through the centre of a circle, bisects the chord.. Find angle x O O 22o xo U S T Angle SOT = 22o (symmetry/congruenncy) Angle x = 180 – 112 = 68o (angle sum triangle)

  22. Mixed Q 1 Mixed Questions U PTR is a tangent line to the circle at T. Find angles SUT, SOT, OTS and OST. O S R 65o T Angle SUT = Angle SOT = P Angle OTS = Angle OST = 65o (Alt seg) 130o (angle at centre) 25o (tan rad) 25o (isos triangle)

  23. Mixed Q 2 Mixed Questions PR and PQ are tangents to the circle. Find the missing angles giving reasons. Q U P y 110o O w z x 48o R Angle w = Angle x = Angle y = Angle z = 22o (cyclic quad) 68o (tan rad) 44o (isos triangle) 68o (alt seg)

  24. Proof 1/2 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 D Theorem 1 and 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)(<‘s at point) • Angle COB = 360 – (180 - 2 + 180 - 2) • Angle COB = 2 + 2 = 2(+ ) = 2 x < CAB QED

  25. Proof 3 To Prove that angles subtended by an arc or chord in the same segment are equal. A D O B C Theorem 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 To prove that the angle between a tangent and a radius drawn to the point of contact is a right angle. The type of proof that follows is a little different and is known as “Reductio ad absurdum” It was first exploited with great success by ancient Greek mathematicians. The idea is to assume that the premise is not true and then apply a deductive argument that leads to an absurd or contradictory statement. The contradictory nature of the statement means that the “not true” premise is false and so the premise is proven true. Note that this proof is given primarily for your interest and completeness. Demonstration of the proof is beyond the GCSE course but is well worth looking at. The proofs up to now have been deductive proofs. That is they start with a premise, (a statement to be proven) followed by a chain of deductive reasoning that leads to the desired conclusion.

  27. C D 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 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 90 -  B O C T 90 -  A Theorem 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 the opposite angles of a cyclic quadrilateral are supplementary (Sum to 180o). B    A    C   D     Theorem 6 gamma delta alpha beta 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 the two tangents drawn from a point outside a circle are of equal length. A O P B Theorem 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 a line, drawn perpendicular to a chord and passing through the centre of a circle, bisects the chord. O A C B Theorem 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. Parts of the Circle Worksheet 1

  33. Worksheet 2 xo xo o o o yo yo yo xo xo xo xo o o o yo yo yo 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 D O B C 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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