Presentation is loading. Please wait.

Presentation is loading. Please wait.

Circles © Christine Crisp Objectives To know the equation of a circle (Cartesian form) To find the intersection of circles with straight lines To Find.

Published byVictor Greene Modified over 8 years ago

Similar presentations

Presentation on theme: "Circles © Christine Crisp Objectives To know the equation of a circle (Cartesian form) To find the intersection of circles with straight lines To Find."— Presentation transcript:

1 Circles © Christine Crisp Objectives To know the equation of a circle (Cartesian form) To find the intersection of circles with straight lines To Find the tangent to a circle To know three circle theorems To solve circle problems using these theorems Keywords Chord, Tangent, bisector, perpendicular, gradient, semi-circle

2 The equation of a circle x y O 1 Consider a circle, with centre the origin and radius 1 Let P (x, y) be any point on the circle P(x, y )

3 The equation of a circle x y O P(x, y ) 1 Consider a circle, with centre the origin and radius 1 Let P (x, y) be any point on the circle x y By Pythagoras’ theorem for triangle OPM, M

4 The equation of a circle x y The equation gives a circle because only the coordinates of points on the circle satisfy the equation. e.g. Since the radius is 1, we can see that the point (1, 0) lies on the circle (1, 0) x 1

5 The equation of a circle e.g. Since the radius is 1, we can see that the point (1, 0) lies on the circle = the right hand side (r.h.s.) So, the equation is satisfied by the point (1, 0) Substituting (1, 0) in the left hand side (l.h.s.) of the equation l.h.s. The equation gives a circle because only the coordinates of points on the circle satisfy the equation.

6 The equation of a circle xy l.h.s. (0. 5, 0. 5) x The equation is NOT satisfied by the point (0.5, 0.5). The point does not lie on the circle since r.h.s. The point does not lie on the circle.

7 The equation of a circle P(x, y ) x y O x y M x y O x y M If we have a circle with centre at the origin but with radius r, we can again use Pythagoras’ theorem r We get

8 The equation of a circle x y Now consider a circle with centre at the point ( a, b ) and radius r. x P(x, y ) x - a y - b Using Pythagoras’ theorem as before:

9 The equation of a circle x y x Another way of finding the equation of a circle with centre ( a, b ) is to use a translation from x Translate by : Replace x by (x – a) and y by (y – b)

10 The equation of a circle The equation of a circle with centre ( a, b ) and radius r is We usually leave the equation in this form without multiplying out the brackets SUMMARY

11 The equation of a circle Since the distance of the point from the centre is less than the radius, the point ( 2, 1 ) is inside the circle e.g. Find the equation of the circle with centre ( 4, -3 ) and radius 5. Does the point ( 2, 1 ) lie on, inside, or outside the circle? Substituting the coordinates ( 2, 1 ): l.h.s. Solution: Using the formula,the circle is this gives the square of the distance of the point from the centre of the circle ( 4, -3 ) ( 2, 1 ) x x

12 The equation of a circle SUMMARY The equation of a circle with centre ( a, b ) and radius r is To determine whether a point lies on, inside, or outside a circle, substitute the coordinates of the point into the l.h.s. of the equation of the circle and compare the answer with

13 The equation of a circle Use Exercises 1.Find the equation of the circle with centre (-1, 2 ) and radius 3. Multiply out the brackets to give your answer in the form 2.Determine whether the point (3,-5) lies on, inside or outside the circle with equation Solution: Substitute x = 3 and y =  5 in l.h.s. so the point lies outside the circle Solution: a =  1, b = 2, r = 3

14 The equation of a circle e.g. Find the centre and radius of the circle with equation Finding the centre and radius of a circle Solution: First complete the square for x

15 The equation of a circle N.B. so we need to subtract 9 to get Finding the centre and radius of a circle Solution: First complete the square for x e.g. Find the centre and radius of the circle with equation

16 The equation of a circle Finding the centre and radius of a circle Solution: First complete the square for x e.g. Find the centre and radius of the circle with equation

17 The equation of a circle Next complete the square for y Finding the centre and radius of a circle Solution: e.g. Find the centre and radius of the circle with equation

18 The equation of a circle Copy the constant and complete the equation Finding the centre and radius of a circle Solution: e.g. Find the centre and radius of the circle with equation

19 The equation of a circle e.g. Find the centre and radius of the circle with equation Finally collect the constant terms onto the r.h.s. Solution: we can see the centre is ( 3, 2 ) and the radius is 5. By comparing with the equation,Finding the centre and radius of a circle

20 The equation of a circle SUMMARY To find the centre and radius of a circle given in a form without brackets: Complete the square for the x -terms Complete the square for the y -terms Collect the constants on the r.h.s. Compare with The centre is ( a, b) and the radius is r.

21 The equation of a circle Exercises Solution: Complete the square for x and y : Find the centre and radius of the circle whose equation is (a) Centre is ( 2, -4 ) and radius is 4 Solution: Complete the square for x and y : (b) Centre is and radius is 3

22 The equation of a circle The following slides contain repeats of information on earlier slides, shown without colour, so that they can be printed and photocopied. For most purposes the slides can be printed as “Handouts” with up to 6 slides per sheet.

Download ppt "Circles © Christine Crisp Objectives To know the equation of a circle (Cartesian form) To find the intersection of circles with straight lines To Find."

Similar presentations

“Teach A Level Maths” Vol. 1: AS Core Modules

“Teach A Level Maths” Vol. 1: AS Core Modules
“Teach A Level Maths” Vol. 1: AS Core Modules

“Teach A Level Maths” Vol. 1: AS Core Modules
The Circle (x 1, y 1 ) (x 2, y 2 ) If we rotate this line we will get a circle whose radius is the length of the line.

The Circle (x 1, y 1 ) (x 2, y 2 ) If we rotate this line we will get a circle whose radius is the length of the line.
18: Circles, Tangents and Chords

18: Circles, Tangents and Chords
“Teach A Level Maths” Vol. 1: AS Core Modules

“Teach A Level Maths” Vol. 1: AS Core Modules
1: Straight Lines and Gradients © Christine Crisp “Teach A Level Maths” Vol. 1: AS Core Modules.

1: Straight Lines and Gradients © Christine Crisp “Teach A Level Maths” Vol. 1: AS Core Modules.
“Teach A Level Maths” Vol. 2: A2 Core Modules

“Teach A Level Maths” Vol. 2: A2 Core Modules
“Teach A Level Maths” Vol. 2: A2 Core Modules

“Teach A Level Maths” Vol. 2: A2 Core Modules
© Christine Crisp “Teach A Level Maths” Vol. 2: A2 Core Modules 47: Solving Differential Equations.

© Christine Crisp “Teach A Level Maths” Vol. 2: A2 Core Modules 47: Solving Differential Equations.
55: The Vector Equation of a Plane © Christine Crisp “Teach A Level Maths” Vol. 2: A2 Core Modules.

55: The Vector Equation of a Plane © Christine Crisp “Teach A Level Maths” Vol. 2: A2 Core Modules.
Definite Integration and Areas 01 It can be used to find an area bounded, in part, by a curve e.g. gives the area shaded on the graph The limits of integration...

Definite Integration and Areas 01 It can be used to find an area bounded, in part, by a curve e.g. gives the area shaded on the graph The limits of integration...
Circles, Line intersections and Tangents © Christine Crisp Objective : To find intersection points with straight lines To know if a line crosses a circle.

Circles, Line intersections and Tangents © Christine Crisp Objective : To find intersection points with straight lines To know if a line crosses a circle.
Coordinate geometry © Christine Crisp.

Coordinate geometry © Christine Crisp.
Circles, Tangents and Chords

Circles, Tangents and Chords
Pupils notes for Circle Lessons.  The equation of a circle with centre ( a, b ) and radius r is We usually leave the equation in this form without multiplying.

Pupils notes for Circle Lessons.  The equation of a circle with centre ( a, b ) and radius r is We usually leave the equation in this form without multiplying.
Introduction This chapter reminds us of how to calculate midpoints and distances between co-ordinates We will see lots of Algebraic versions as well We.

Introduction This chapter reminds us of how to calculate midpoints and distances between co-ordinates We will see lots of Algebraic versions as well We.
41: Trig Equations © Christine Crisp “Teach A Level Maths” Vol. 1: AS Core Modules.

41: Trig Equations © Christine Crisp “Teach A Level Maths” Vol. 1: AS Core Modules.
11: The Rule for Differentiation © Christine Crisp “Teach A Level Maths” Vol. 1: AS Core Modules.

11: The Rule for Differentiation © Christine Crisp “Teach A Level Maths” Vol. 1: AS Core Modules.
1: Straight Lines and Gradients © Christine Crisp “Teach A Level Maths” Vol. 1: AS Core Modules.

1: Straight Lines and Gradients © Christine Crisp “Teach A Level Maths” Vol. 1: AS Core Modules.
“Teach A Level Maths” Vol. 1: AS Core Modules

“Teach A Level Maths” Vol. 1: AS Core Modules

Similar presentations

Ads by Google