Circles

Made By: Krunal Chauhan , Priyank Sharma & Mohit Agarwal.

You may have come across many objects in daily life, which are round in shape, such as wheels of a vehicle, bangles, dials of many clocks, coins of denominations 50 p, Re 1 and Rs 5, key rings, buttons of shirts, etc. In a clock, you might have observed that the second ’ s hand goes round the dial of the clock rapidly and its tip moves in a round path. This path traced by the tip of the second ’ s hand is called a circle . In this chapter, you will study about circles, other related terms and some properties of a circle.

Arc - Two endpoints on a circle and all of the points on the circle between those two endpoints. Center - The point from which all points on a circle are equidistant. Central Angle - An angle whose vertex is the center of a circle. Chord - A segment whose endpoints are on a circle. Circle - A geometric figure composed of points that are equidistant from a given point. Circle Segment - The region within a circle bounded by a chord of that circle and the minor arc whose endpoints are the same as those of the chord. Circumscribed Polygon - A polygon whose segments are tangent to a circle. Concentric Circles - Circles that share a center.

Diameter - A chord that intersects with the center of a circle. Equidistant - The same distance. Objects can be equidistant from one another. Inscribed Polygon - A polygon whose vertices intersect with a circle. Major Arc - An arc greater than 180 degrees. Minor Arc - An arc less than 180 degrees. Point of Tangency - The point of intersection between a circle and its tangent line or tangent segment. Radius - A segment with one endpoint at the center of a circle and the other endpoint on the circle. Secant Line - A line that intersects with a circle at two points. Sectors - A region inside a circle bounded by a central angle and the minor arc whose endpoints intersect with the rays that compose the central angle. Semicircle - A 180 degree arc.

Theorem 1 : Equal chords of a circle subtend equal angles at the centre. Proof : You are given two equal chords AB and CD of a circle with centre O. You want to prove that L AOB = L COD. In triangles AOB and COD, OA = OC (Radii of a circle) OB = OD (Radii of a circle) AB = CD (Given) Therefore, Δ AOB ≅ Δ COD (SSS rule) This gives L AOB = L COD (Corresponding parts of congruent triangles)

Theorem 2 : If the angles subtended by the chords of a circle at the centre are equal, then the chords are equal. The above theorem is the converse of the Theorem 1. Note that in Fig. 1, if you take , L AOB = L COD, then Δ AOB ≅ Δ COD (proved above) Now see that AB = CD

Theorem 4 : The line drawn through the centre of a circle to bisect a chord is perpendicular to the chord. Let AB be a chord of a circle with centre O and O is joined to the mid-point M of AB. You have to prove that OM L AB. Join OA and OB (see Fig. 2). In triangles OAM and OBM, OA = OB (radii of same circle) AM = BM (M is midpoint of AB) OM = OM (Common) Therefore, Δ OAM ≅ Δ OBM (By SSS rule) This gives L OMA = L OMB = 90° (By C.P.C.T) Theorem 3 : The perpendicular from the centre of a circle to a chord bisects the chord.

Theorem 5 : There is one and only one circle passing through three given non-collinear points . Theorem 6 : Equal chords of a circle (or of congruent circles) are equidistant from the centre (or centres). Theorem 7 : Chords equidistant from the centre of a circle are equal in length.

Theorem 8 : 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. We need to prove that L POQ = 2 L PAQ. FIG :- 3

Consider the three different cases as given in Fig.3. In (i), arc PQ is minor; in (ii), arc PQ is a semicircle and in (iii), arc PQ is major. Let us begin by joining AO and extending it to a point B. In all the cases, L BOQ = L OAQ + L AQO because an exterior angle of a triangle is equal to the sum of the two interior opposite angles.

Also in Δ OAQ, OA = OQ (Radii of a circle) Therefore, L OAQ = L OQA (Theorem 7.5) This gives L BOQ = 2 L OAQ (1) Similarly, L BOP = 2 L OAP (2) From (1) and (2), L BOP + L BOQ = 2 ( L OAP + L OAQ) This is the same as L POQ = 2 L PAQ (3) For the case (iii), where PQ is the major arc, (3) is replaced by reflex angle POQ = 2 L PAQ

Theorem 9 : Angles in the same segment of a circle are equal. Theorem 10 : 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 11 : The sum of either pair of opposite angles of a cyclic quadrilateral is 180º. In fact, the converse of this theorem, which is stated below is also true. Theorem 12 : If the sum of a pair of opposite angles of a quadrilateral is 180º, the quadrilateral is cyclic.

In this presentation, you have studied the following points: 1. A circle is the collection of all points in a plane, which are equidistant from a fixed point in the plane. 2. Equal chords of a circle (or of congruent circles) subtend equal angles at the centre. 3. If the angles subtended by two chords of a circle (or of congruent circles) at the centre (corresponding centres) are equal, the chords are equal. 4. The perpendicular from the centre of a circle to a chord bisects the chord. 5. The line drawn through the centre of a circle to bisect a chord is perpendicular to the chord. 6. There is one and only one circle passing through three non-collinear points. 7. Equal chords of a circle (or of congruent circles) are equidistant from the centre (or corresponding centres).

8. Chords equidistant from the centre (or corresponding centres) of a circle (or of congruent circles) are equal. 9. 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. 10. Congruent arcs of a circle subtend equal angles at the centre. 11. 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. 12. Angles in the same segment of a circle are equal. 13. Angle in a semicircle is a right angle. 14. 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. 15. The sum of either pair of opposite angles of a cyclic quadrilateral is 1800. 16. If sum of a pair of opposite angles of a quadrilateral is 1800, the quadrilateral is cyclic.

Circles

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Circles