Theorems with Chords & Tangents (Edexcel IGCSE Maths A (Modular))

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Written by: Amber

Reviewed by: Dan Finlay

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Circles & Chords

What is a chord?

A chord is any straight line is a circle that joins any two points on the circumference
- Chords of equal length are equidistant (the same distance) from the centre

Circle Theorem: The perpendicular bisector of a chord passes through the centre

If a line through the centre (such as a radius or diameter) goes through the midpoint of chord
- it will bisect (cut in half) that chord at right angles to it

A circle with a radius bisecting a chord.

To spot this circle theorem on a diagram
- look for a radius and see if it intersects any chords
- or look to see if you could draw a radius that bisects a chord
When explaining this theorem in an exam you can use either phrase below:
- A radius bisects a chord at right angles
- The perpendicular bisector of a chord passes through the centre

Examiner Tips and Tricks

Look out for isosceles triangles formed by a chord and two radii
- Two angles in the triangle will be equal and there will be at least one line of symmetry

Worked Example

The diagram below shows a circle with centre, O.
Two points, P and Q, lie on its circumference.
The radius of the circle is 6 cm.
Angle OPQ = 40º.

Find the length PQ.

A circle of centre, O, has two points on its circumference, P and Q. The lines OQ and PQ are drawn on. The angle OQP = 40º.

Label the radius on the diagram 6 cm

Draw a line from O to the midpoint, M, of the line PQ
The angle formed between the OM and PQ will be a right angle

A diagram showing the same circle with a straight line from the centre to the midpoint of PQ, bisecting it at a right angle.

Use SOHCAHTOA on triangle OMQ to find the length MQ

$\begin{array}{rcl} \cos 40 & = & \frac{M Q}{6} \\ 6 \cos 40 & = & M Q \\ M Q & = & 4.59626 . . . \end{array}$

Double MQ to find the length PQ

$4.59626 . . . \times 2 = 9.19253 . . .$

Round to 3 significant figures

PQ = 9.19 cm (3 s.f.)

Circles & Tangents

What is a tangent?

A tangent to a circle is a straight line outside of the circle that touches its circumference at exactly one point

Circle Theorem: A radius and a tangent meet at right angles

If a radius and a tangent meet at a point on the circumference of a circle, the angle formed between them will be 90°
- They are perpendicular to each other

A circle with a tangent and a radius meeting at 90º.

When explaining this theorem in an exam you must use the keywords:
- A radius and a tangent meet at right angles

Circle Theorem: Tangents from an external point are equal in length

Two tangents from the same external point are equal in length
This means that a kite can be formed by two tangents meeting a circle
- The kite below has a vertical line of symmetry
  - It is formed from two congruent triangles back-to-back
- The kite will have two right angles where the tangents meet the radii
  - You can use Pythagoras and SOHCAHTOA on each of these triangles

A circle with centre, O, and two points on the circumference, R and S. Tangents to the circle at these two points, intersect at a point outside the circle, T. OR and OS are radii. ROST forms a kite.

Examiner Tips and Tricks

Look for tangents in the exam and draw on the radius at right angles to see if it helps

Worked Example

Find the value of θ in the diagram below.

A circle with centre, O, and two points on the circumference, S and R. Tangents to the circle, at S and R, meet at a point outside the circle, T. The acute angle between these two tangents at point T is 25º. The angle SOR is labelled θ.

The lines ST and RT are both tangents to the circle
They meet the two radii on the circumference at the points S and T

Angle TSO = angle TRO = 90°
A radius and a tangent meet at right angles

Use vertically opposite angles to find the value of angle RTS

Angle RTS = 25°
Vertically opposite angles

Mark these angles clearly on the diagram

The diagram of the circle with two tangents as before but with the angles OST and ORT marked as being perpendicular and the angle STR labelled 25º.

Angles in a quadrilateral add up to 360°
Use this to form an equation for θ

$θ + 90 + 90 + 25 = 360$
Angles in a quadrilateral sum to 360º

Simplify

$θ + 205 = 360$

Solve

$θ = 360 - 205$

$θ = 155 °$

Last updated: 17 October 2024

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Theorems with Chords & Tangents (Edexcel IGCSE Maths A (Modular))

Revision Note

Circles & Chords

What is a chord?

Circle Theorem: The perpendicular bisector of a chord passes through the centre

Examiner Tips and Tricks

Worked Example

Circles & Tangents

What is a tangent?

Circle Theorem: A radius and a tangent meet at right angles

Circle Theorem: Tangents from an external point are equal in length

Examiner Tips and Tricks

Worked Example

You've read 0 of your 10 free revision notes

Unlock more, it's free!

Join the 100,000+ Students that ❤️ Save My Exams

Author: Amber

Author: Dan Finlay