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Case study on circles

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S
Sanjith Varun Rajendran

This is about circles

Education
1 of 24
CIRCLES PRESENTED BY: TEJENDRA SARADHI IX-B
CONTENTS 1. Circles And Its Related Terms. 2. Angle Subtended By A Chord At A Point. 3. Perpendicular From The Centre To A Chord. 4. Circle Through Three Points 5. Equal Chords And Their Distances From The Centre. 6. Angle Subtended By An Arc Of A Circle. 7. Cyclic Quadrilaterals. 8. What We Conclude?
Circles And Its RelatedTerms. 1.1 CIRCLE: The collection of all the points in plane, which are at a fixed distance from a fixed point in the plane, is called a circle.
1.2 Radius, Diameter, Center, Chord, Arc And Sector. The line segment joining the centre and any point on the circle is also called a radius of the circle. Diameter is two times the radius. The fixed point is called the centre of the circle. If we take two points P and Q on a circle, then the line segment PQ is called a chord of the circle. A piece of a circle between two points is called an arc. The region between an arc and the two radii, joining the centre to the end points of the arc is called a sector.
AngleSubtended By A Chord At a Point. We take a line segment PQ and a point R not on the line containing PQ. Join PR and QR. Then ∠PRQ is called the angle subtended by the line segment PQ at the point R. ∠POQ is the angle subtended by the chord PQ at the centre O, ∠PRQ and ∠PSQ are respectively the angles subtended by PQ at points R and S on the major and minor arcs PQ.
THEOREM 1 To Prove: Equal chords of a circle subtend equal angles at the centre. Proof : We are given two equal chords AB and CD of a circle with centre O. We want to prove that: ∠ AOB = ∠ COD. In triangles AOB and COD, OA = OC (Radii of a circle) OB = OD (Radii of a circle) AB = CD (Given) Therefore, Ξ” AOB β‰… Ξ” COD (SSS rule) This gives ∠ AOB = ∠ COD (CPCT)
THEOREM 2 If the angles subtended by the chords of a circle at the centre are equal, then the chords are equal. Theorem 2 is converse of the Theorem 1.
Perpendicular FromThe Centre To A Chord Let there be a circle with O as center and let AB one of its chord. Draw a perpendicular through O cutting AB at M. Then, ∠OMA =∠OMB = 90° or OM is perpendicular to AB. We conclude that the perpendicular from the center of a circle to a chord bisects the chord.
THEOREM 3 TO PROVE: The line drawn through the centre of a circle to bisect a chord is perpendicular to the chord. PROOF: Let AB be a chord of a circle with centre O and O is joined to the mid-point M of AB. We have to prove that OM βŠ₯ AB. Join OA and OB. In triangles OAM and OBM, OA = OB (Given) AM = BM (Given) OM = OM (Common) Therefore, Ξ”OAM β‰… Ξ”OBM (SSS) This gives ∠OMA = ∠OMB = 90Β° (CPCT)
Circle through Three Points Infinite number of circle can be drawn through one or two points (Fig 1 And 2) . In case there are three collinear points, then circle can be drawn but the third point will lie outside the circle (Fig 3). Let us take three points A, B and C, which are not on the same line (Fig 4). Draw perpendicular bisectors of AB and BC, PQ and RS respectively. Let these perpendicular bisectors intersect at one point O (Fig 5).
CONCLUSION O lies on the perpendicular bisector PQ of AB, we have OA = OB. Similarly, as O lies on the perpendicular bisector RS of BC, we get OB = OC. So OA = OB = OC, which means that the points A, B and C are at equal distances from the point O. We conclude that there is one and only one circle passing through three given non-collinear points.
Equal Chords And Their Distances From The Centre Let AB be a line and P be a point. Since there are infinite numbers of points on a line, if we join these points to P, we will get infinitely many line segments PL1, PL2, PM, PL3, PL4, etc. Out of these line segments, the perpendicular from P to AB, namely PM will be the least. We conclude that the length of the perpendicular from a point to a line is the distance of the line from the point.
THEOREM 4 TO PROVE: Equal chords of a circle (or of congruent circles) are equidistant from the centre (or centers). PROOF: Take a circle of any radius. Draw two equal chords AB and CD of it and also the perpendiculars OM and ON on them from the centre O. Divide the figure into two so that D falls on B and C falls on A. We observe that O lies on the crease and N falls on M. Therefore, OM = ON.
THEOREM 5 Chords equidistant from the centre of a circle are equal in length. Theorem 5 is converse of the Theorem 4
Angle Subtended by an Arc of a Circle The end points of a chord other than diameter of a circle cuts it into two arcs – one major and other minor. If we take two equal chords, They are more than just equal in length. They are congruent in the sense that if one arc is put on the other, without bending or twisting, one superimposes the other completely. We can verify this fact by cutting the arc, corresponding to the chord CD from the circle along CD and put it on the corresponding arc made by equal chord AB. We will find that the arc CD superimpose the arc AB completely This shows that equal chords make congruent arcs and conversely congruent arcs make equal chords of a circle. We conclude that if two chords of a circle are equal, then their corresponding arcs are congruent and conversely, if two arcs are congruent, then their corresponding chords are equal.
The angle subtended by an arc at the centre is defined to be angle subtended by the corresponding chord at the centre in the sense that the minor arc subtends the angle and the major arc subtends the reflex angle. The angle subtended by the minor arc PQ at O is ∠POQ and the angle subtended by the major arc PQ at O is reflex angle POQ. We conclude that congruent arcs (or equal arcs) of a circle subtend equal angles at the centre.
THEOREM 6 TO PROVE: The angle subtended by an arc at the centre is double the angle subtended by it at any point on the remaining part of the circle. PROOF: Given an arc PQ of a circle subtending angles POQ at the centre O and PAQ at a point A on the remaining part of the circle. Consider the three different cases arc PQ is minor(Fig 1), arc PQ is a semicircle(Fig 2) and in arc PQ is major(Fig 3). Let us begin by joining AO and extending it to a point B. In all the cases, ∠ BOQ = ∠ OAQ + ∠ AQO because an exterior angle of a triangle is equal to the sum of the two interior opposite angles. In Ξ” OAQ, OA = OQ (Radii of a circle) Therefore, ∠ OAQ = ∠ OQA This gives ∠ BOQ = 2 ∠ OAQ (1) Similarly, ∠ BOP = 2 ∠ OAP (2) From (1) and (2), ∠ BOP + ∠ BOQ = 2(∠ OAP + ∠ OAQ) This is the same as ∠ POQ = 2 ∠ PAQ (3) For the case (iii), where PQ is the major arc, (3) is replaced by reflex angle POQ = 2 ∠ PAQ.
THEOREM 7 TO PROVE: Angles in the same segment of a circle are equal. PROOF: According to Theorem 6, ∠ PAQ = 1/2 ∠POQ = 1/2Γ—180Β°=90Β°. If we take any other point C on the semicircle, again we get that ∠PCQ = 90Β°(Fig 1). Suppose we join points P and Q and form a chord PQ in the figures used in Theorem 6. Then ∠PAQ is also called the angle formed in the segment PAQP. A can be any point on the remaining part of the circle. So if we take any other point C on the remaining part of the circle, ∠POQ = 2 ∠PCQ = 2 ∠PAQ Therefore, ∠PCQ = ∠PAQ.
THEOREM 8 If a line segment joining two points subtends equal angles at two other points lying on the same side of the line containing the line segment, the four points lie on a circle (i.e. they are concyclic). Theorem 8 is converse of the Theorem 7
Cyclic Quadrilaterals A quadrilateral ABCD is called cyclic if all the four vertices of it lie on a circle. If we observe these cyclic quadrilateral, we find that ∠A + ∠C = 180° and ∠B + ∠D = 180°, neglecting the error in measurements. We conclude that the sum of either pair of opposite angles of a cyclic quadrilateral is 180°. In converse of this, We conclude that if the sum of a pair of opposite angles of a quadrilateral is 180°, the quadrilateral is cyclic.
WHAT WE CONCLUDE? We Conclude that, A circle is the collection of all points in a plane, which are equidistant from a fixed point in the plane. Equal chords of a circle (or of congruent circles) subtend equal angles at the centre. If the angles subtended by two chords of a circle (or of congruent circles) at the centre(corresponding centers) are equal, the chords are equal. The perpendicular from the centre of a circle to a chord bisects the chord. The line drawn through the centre of a circle to bisect a chord is perpendicular to the chord.
There is one and only one circle passing through three non-collinear points. Equal chords of a circle (or of congruent circles) are equidistant from the centre (or corresponding centers). Chords equidistant from the centre (or corresponding centers) of a circle (or of congruent circles) are equal. If two arcs of a circle are congruent, then their corresponding chords are equal and conversely if two chords of a circle are equal, then their corresponding arcs (minor, major) are congruent. Congruent arcs of a circle subtend equal angles at the centre. The angle subtended by an arc at the centre is double the angle subtended by it at any point on the remaining part of the circle.
Angles in the same segment of a circle are equal. Angle in a semicircle is a right angle. If a line segment joining two points subtends equal angles at two other points lying on the same side of the line containing the line segment, the four points lie on a circle. The sum of either pair of opposite angles of a cyclic quadrilateral is180Β°. If sum of a pair of opposite angles of a quadrilateral is180Β°, the quadrilateral is cyclic.
THE END

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Case study on circles

  • 2. CONTENTS 1. Circles And Its Related Terms. 2. Angle Subtended By A Chord At A Point. 3. Perpendicular From The Centre To A Chord. 4. Circle Through Three Points 5. Equal Chords And Their Distances From The Centre. 6. Angle Subtended By An Arc Of A Circle. 7. Cyclic Quadrilaterals. 8. What We Conclude?
  • 3. Circles And Its RelatedTerms. 1.1 CIRCLE: The collection of all the points in plane, which are at a fixed distance from a fixed point in the plane, is called a circle.
  • 4. 1.2 Radius, Diameter, Center, Chord, Arc And Sector. The line segment joining the centre and any point on the circle is also called a radius of the circle. Diameter is two times the radius. The fixed point is called the centre of the circle. If we take two points P and Q on a circle, then the line segment PQ is called a chord of the circle. A piece of a circle between two points is called an arc. The region between an arc and the two radii, joining the centre to the end points of the arc is called a sector.
  • 5. AngleSubtended By A Chord At a Point. We take a line segment PQ and a point R not on the line containing PQ. Join PR and QR. Then ∠PRQ is called the angle subtended by the line segment PQ at the point R. ∠POQ is the angle subtended by the chord PQ at the centre O, ∠PRQ and ∠PSQ are respectively the angles subtended by PQ at points R and S on the major and minor arcs PQ.
  • 6. THEOREM 1 To Prove: Equal chords of a circle subtend equal angles at the centre. Proof : We are given two equal chords AB and CD of a circle with centre O. We want to prove that: ∠ AOB = ∠ COD. In triangles AOB and COD, OA = OC (Radii of a circle) OB = OD (Radii of a circle) AB = CD (Given) Therefore, Ξ” AOB β‰… Ξ” COD (SSS rule) This gives ∠ AOB = ∠ COD (CPCT)
  • 7. THEOREM 2 If the angles subtended by the chords of a circle at the centre are equal, then the chords are equal. Theorem 2 is converse of the Theorem 1.
  • 8. Perpendicular FromThe Centre To A Chord Let there be a circle with O as center and let AB one of its chord. Draw a perpendicular through O cutting AB at M. Then, ∠OMA =∠OMB = 90Β° or OM is perpendicular to AB. We conclude that the perpendicular from the center of a circle to a chord bisects the chord.
  • 9. THEOREM 3 TO PROVE: The line drawn through the centre of a circle to bisect a chord is perpendicular to the chord. PROOF: Let AB be a chord of a circle with centre O and O is joined to the mid-point M of AB. We have to prove that OM βŠ₯ AB. Join OA and OB. In triangles OAM and OBM, OA = OB (Given) AM = BM (Given) OM = OM (Common) Therefore, Ξ”OAM β‰… Ξ”OBM (SSS) This gives ∠OMA = ∠OMB = 90Β° (CPCT)
  • 10. Circle through Three Points Infinite number of circle can be drawn through one or two points (Fig 1 And 2) . In case there are three collinear points, then circle can be drawn but the third point will lie outside the circle (Fig 3). Let us take three points A, B and C, which are not on the same line (Fig 4). Draw perpendicular bisectors of AB and BC, PQ and RS respectively. Let these perpendicular bisectors intersect at one point O (Fig 5).
  • 11. CONCLUSION O lies on the perpendicular bisector PQ of AB, we have OA = OB. Similarly, as O lies on the perpendicular bisector RS of BC, we get OB = OC. So OA = OB = OC, which means that the points A, B and C are at equal distances from the point O. We conclude that there is one and only one circle passing through three given non-collinear points.
  • 12. Equal Chords And Their Distances From The Centre Let AB be a line and P be a point. Since there are infinite numbers of points on a line, if we join these points to P, we will get infinitely many line segments PL1, PL2, PM, PL3, PL4, etc. Out of these line segments, the perpendicular from P to AB, namely PM will be the least. We conclude that the length of the perpendicular from a point to a line is the distance of the line from the point.
  • 13. THEOREM 4 TO PROVE: Equal chords of a circle (or of congruent circles) are equidistant from the centre (or centers). PROOF: Take a circle of any radius. Draw two equal chords AB and CD of it and also the perpendiculars OM and ON on them from the centre O. Divide the figure into two so that D falls on B and C falls on A. We observe that O lies on the crease and N falls on M. Therefore, OM = ON.
  • 14. THEOREM 5 Chords equidistant from the centre of a circle are equal in length. Theorem 5 is converse of the Theorem 4
  • 15. Angle Subtended by an Arc of a Circle The end points of a chord other than diameter of a circle cuts it into two arcs – one major and other minor. If we take two equal chords, They are more than just equal in length. They are congruent in the sense that if one arc is put on the other, without bending or twisting, one superimposes the other completely. We can verify this fact by cutting the arc, corresponding to the chord CD from the circle along CD and put it on the corresponding arc made by equal chord AB. We will find that the arc CD superimpose the arc AB completely This shows that equal chords make congruent arcs and conversely congruent arcs make equal chords of a circle. We conclude that if two chords of a circle are equal, then their corresponding arcs are congruent and conversely, if two arcs are congruent, then their corresponding chords are equal.
  • 16. The angle subtended by an arc at the centre is defined to be angle subtended by the corresponding chord at the centre in the sense that the minor arc subtends the angle and the major arc subtends the reflex angle. The angle subtended by the minor arc PQ at O is ∠POQ and the angle subtended by the major arc PQ at O is reflex angle POQ. We conclude that congruent arcs (or equal arcs) of a circle subtend equal angles at the centre.
  • 17. THEOREM 6 TO PROVE: The angle subtended by an arc at the centre is double the angle subtended by it at any point on the remaining part of the circle. PROOF: Given an arc PQ of a circle subtending angles POQ at the centre O and PAQ at a point A on the remaining part of the circle. Consider the three different cases arc PQ is minor(Fig 1), arc PQ is a semicircle(Fig 2) and in arc PQ is major(Fig 3). Let us begin by joining AO and extending it to a point B. In all the cases, ∠ BOQ = ∠ OAQ + ∠ AQO because an exterior angle of a triangle is equal to the sum of the two interior opposite angles. In Ξ” OAQ, OA = OQ (Radii of a circle) Therefore, ∠ OAQ = ∠ OQA This gives ∠ BOQ = 2 ∠ OAQ (1) Similarly, ∠ BOP = 2 ∠ OAP (2) From (1) and (2), ∠ BOP + ∠ BOQ = 2(∠ OAP + ∠ OAQ) This is the same as ∠ POQ = 2 ∠ PAQ (3) For the case (iii), where PQ is the major arc, (3) is replaced by reflex angle POQ = 2 ∠ PAQ.
  • 18. THEOREM 7 TO PROVE: Angles in the same segment of a circle are equal. PROOF: According to Theorem 6, ∠ PAQ = 1/2 ∠POQ = 1/2Γ—180Β°=90Β°. If we take any other point C on the semicircle, again we get that ∠PCQ = 90Β°(Fig 1). Suppose we join points P and Q and form a chord PQ in the figures used in Theorem 6. Then ∠PAQ is also called the angle formed in the segment PAQP. A can be any point on the remaining part of the circle. So if we take any other point C on the remaining part of the circle, ∠POQ = 2 ∠PCQ = 2 ∠PAQ Therefore, ∠PCQ = ∠PAQ.
  • 19. THEOREM 8 If a line segment joining two points subtends equal angles at two other points lying on the same side of the line containing the line segment, the four points lie on a circle (i.e. they are concyclic). Theorem 8 is converse of the Theorem 7
  • 20. Cyclic Quadrilaterals A quadrilateral ABCD is called cyclic if all the four vertices of it lie on a circle. If we observe these cyclic quadrilateral, we find that ∠A + ∠C = 180Β° and ∠B + ∠D = 180Β°, neglecting the error in measurements. We conclude that the sum of either pair of opposite angles of a cyclic quadrilateral is 180Β°. In converse of this, We conclude that if the sum of a pair of opposite angles of a quadrilateral is 180Β°, the quadrilateral is cyclic.
  • 21. WHAT WE CONCLUDE? We Conclude that, A circle is the collection of all points in a plane, which are equidistant from a fixed point in the plane. Equal chords of a circle (or of congruent circles) subtend equal angles at the centre. If the angles subtended by two chords of a circle (or of congruent circles) at the centre(corresponding centers) are equal, the chords are equal. The perpendicular from the centre of a circle to a chord bisects the chord. The line drawn through the centre of a circle to bisect a chord is perpendicular to the chord.
  • 22. There is one and only one circle passing through three non-collinear points. Equal chords of a circle (or of congruent circles) are equidistant from the centre (or corresponding centers). Chords equidistant from the centre (or corresponding centers) of a circle (or of congruent circles) are equal. If two arcs of a circle are congruent, then their corresponding chords are equal and conversely if two chords of a circle are equal, then their corresponding arcs (minor, major) are congruent. Congruent arcs of a circle subtend equal angles at the centre. The angle subtended by an arc at the centre is double the angle subtended by it at any point on the remaining part of the circle.
  • 23. Angles in the same segment of a circle are equal. Angle in a semicircle is a right angle. If a line segment joining two points subtends equal angles at two other points lying on the same side of the line containing the line segment, the four points lie on a circle. The sum of either pair of opposite angles of a cyclic quadrilateral is180Β°. If sum of a pair of opposite angles of a quadrilateral is180Β°, the quadrilateral is cyclic.