Topics
28. Circle Geometry
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iGCSE (2021 Edition)

28.03 Tangents to a circle

Lesson
Worksheet
Practice

Interactive practice questions

In this question we aim to prove that the tangent is perpendicular to the radius drawn from its point of contact.

In the diagram, $C$C is an arbitrary point on the line $AD$AD, and $B$B is the point at which the tangent meets the circle.

a

What can we say about the lines $OB$OB and $OC$OC?

$OB=OC$OB=OC

A

$OB>OC$OB>OC

B

$OBOB<OC

C
b

What point on $AD$AD is closest to the centre of the circle?

Point $A$A

A

Point $B$B

B

Point $C$C

C

Point $D$D

D
c

In general, what can we say about the angle of a line joining some point to some other line by the shortest route?

The angle is obtuse.

A

The angle is reflex.

B

The angle is a right angle.

C

The angle is acute.

D
d

Hence, what can we say about angle $\angle OBA$OBA?

Straight angle

A

Acute angle

B

Reflex angle

C

Right angle

D
Easy
1min

Prove that $\triangle OAC$OAC and $\triangle OBC$OBC are congruent. Then, show that $AC=BC$AC=BC.

Easy
6min

Prove that $y+z=x$y+z=x.

Easy
6min

Consider the figure:

Easy
1min
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Outcomes

0580C4.7F

Calculate unknown angles using the property of an angle between tangent and radius of a circle.

0580E4.6

Recognise rotational and line symmetry (including order of rotational symmetry) in two dimensions. Recognise symmetry properties of the prism (including cylinder) and the pyramid (including cone). Use the following symmetry properties of circles: • equal chords are equidistant from the centre • the perpendicular bisector of a chord passes through the centre • tangents from an external point are equal in length.

0580E4.7F

Calculate unknown angles using the property of an angle between tangent and radius of a circle.

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