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Parts of a circle Angles in polygons Angles on a straight line Angles around a point Angles in parallel lines TrianglesThis topic is relevant for:
Here we will learn about the circle theorem: angles in the same segment, including its application, proof, and using it to solve more difficult problems.
There are also circle theorem worksheets based on Edexcel, AQA and OCR exam questions, along with further guidance on where to go next if you’re still stuck.
Angles in the same segment are equal
In the diagram above, BD is a chord that divides the circle into the major and minor segments. The two points A and C on the circumference are joined to two other points on the circumference B and D . The angle DAB is the same as angle DCB . This is the same for any point that is placed on the major arc and so angles in the same segment are equal.
If the point is placed on the minor arc in the other segment, it would be a different angle, but all angles on the minor arc would be the same. Here, x=180-θ for any value of θ.
Below is a diagram showing the key parts of a circle for this theorem:
Subtended angles
An angle within a circle is created by two chords meeting at a point on the circumference of a circle. The diagrams below show the angle subtended by arc AC from point B for two different circles.
To be able to prove the theorem, you need to know the following circle theorems:
2Plot the centre of a circle and draw two radii from the centre to the circumference (here these are dashed lines). Label the angle between the two radii c .
3Let us inspect the angles a and c .
4We know that the angle at the centre is twice the angle at the circumference. This means that if the angle at the centre is equal to 2x, the angle at the circumference (which was our angle a)is now equal to half of 2x, or just x.
5Let us now inspect angles b and c .
6Again, we know that the angle at the centre is twice the angle at the circumference and so if we say that the angle c is equal to 2x, the angle b is equal to x.
7We now have the current situation where a and b are equal to x and the angle c is equal to 2x .
8This means that the two angles at the circumference are the same size and therefore we can state angles in the same segment are equal.
In order to use the fact that angles in the same segment are equal:
Get your free angles in the same segment worksheet of 20+ circle theorems questions and answers. Includes reasoning and applied questions.
DOWNLOAD FREEGet your free angles in the same segment worksheet of 20+ circle theorems questions and answers. Includes reasoning and applied questions.
DOWNLOAD FREETangent of a circle is one of 7 circle theorems you will need to know. You may find it helpful to start with our main circle theorems page and then look in detail at the rest.
Below is a circle with centre O . AC and BD are chords. Calculate the size of angle CAD .
Here we have:
2Use other angle facts to determine an angle at the circumference in the same segment.
We already know that DBC = 47° so we do not need to use any other angle fact to determine this angle for this example.
3Use the angle in the same segment theorem to state the other missing angle.
The angle CAD is in the same segment as the angle CBD and so we can state the angle of CAD
CAD = CBD = 47°
A, B, C, and D are points on a circle with centre O . Calculate the size of the angle CBD .
Locate the key parts of the circle for the theorem.
Here we have:
Use other angle facts to determine an angle at the circumference in the same segment.
Angles on a straight line total 180° so angle BEC = 180-88 = 92° .
Use the angle in the same segment theorem to state the other missing angle.
The angle BCA is in the same segment as the angle BDA and so they are equal angles. This means angle BCA = 65° .
As angles in a triangle total 180° , angle CBD can now be calculated:
CBD = 180 - (92+65)
CBD = 23°
The circle with centre O has four points on the circumference. The two chords AC and BD intersect at the point E . Calculate the size of angle ABE .
Locate the key parts of the circle for the theorem.
Here we have:
Use other angle facts to determine an angle at the circumference in the same segment.
Vertically opposite angles are equal and so the angle BEA = 70° .
Use the angle in the same segment theorem to state the other missing angle.
Angle CDB is in the same segment as the angle CAB and so they are equal. This means we can calculate the size of angle ABE as angles in a triangle total 180° :
ABE = 180 - (79+44)
ABE = 57°
A, B, C, and D are points on the circumference of the circle with centre O . BOD is a straight line. Calculate the size of angle ABD .
Locate the key parts of the circle for the theorem.
Here we have:
Use other angle facts to determine an angle at the circumference in the same segment.
The angle at the centre is twice the angle at the circumference and so the angle ACD is equal to:
ACD=74\div2
ACD=37°
Use the angle in the same segment theorem to state the other missing angle.
Angle ABD is in the same segment as angle ACD and so ABD = 37° .
ABCD are vertices of a cyclic quadrilateral. The circle has centre O . The chords AC and BD intersect at the point E . Calculate the size of the angle ABE .
Locate the key parts of the circle for the theorem.
Here we have:
Use other angle facts to determine an angle at the circumference in the same segment.
Here, angle properties are very important. Angles on a straight line total 180° , angle CED = 180 - 88 = 92° . Vertically opposite angles are the same and so angle AED = 88° . Angles in a triangle total 180° , and so angle ADE = 180 - (88+21) = 71° . This means that angle CDE = 94 - 71 = 23° . Placing all this information into the diagram, we have:
The angle DCE can now be calculated as it is the third angle in the triangle. This means that:
DCE = 180 - (92+23)
DCE = 65°
Use the angle in the same segment theorem to state the other missing angle.
Angle ACD is in the same segment as angle ABD and so they are equal. This means that angle ABD = 65° .
A, B, C, D, and E are points on a circle with centre O . The lines AB and CD are parallel. Calculate the value of angle BDC .
Locate the key parts of the circle for the theorem.
Here we have:
Use other angle facts to determine an angle at the circumference in the same segment.
Vertically opposite angles are the same so angle BGO = 84° . The missing angle in the triangle AOB = 180-(84+8) = 88° . Angles on a straight line total 180° , so angle BOC = 180 - 88 = 92° .
The angle at the centre is twice the angle at the circumference and so angle BEC = 92\div 2 = 46°
Use the angle in the same segment theorem to state the other missing angle.
As angle BEC is in the same segment as the angle BDC we can say that angle BEC = angle BDC or BDC=46° .
The other angle in the same segment at the circumference is doubled or halved instead of it being the same.
The two angles that are in the same segment at the circumference total 90° (or 180° if one angle is obtuse).
1. A circle with centre O has four points on the circumference, A, B, C, and D . Angle CAD = 11^{\circ} . Calculate the size of the angle CBD .
CBD = CAD = 11^{\circ} (angles in the same segment are equal)
2. A, B, C, and D are points on the circle with centre O . The chords BD and AC intersect at the point E . Calculate the size of angle CBE .
3. A, B, C, and D are points on the circle with centre O . BD and AC intersect at the point E . BD is not the diameter of the circle. Calculate the size of angle ABE .
4. A circle with centre O has four points on the circumference, A, B, C, and D . The reflex angle AOD = 306^{\circ} . Calculate the size of angle ABD .
5. A circle with centre O has four points on the circumference, A, B, C, and D . AC and BD intersect at the point E . Angle BCD = 84^{\circ} . Calculate the size of angle ABE .
6. A circle with centre O has points A, B, C, D, and E on the circumference. Angle BAF = 58^{\circ} . Calculate the size of the angle BCD .
1. Use the information in the diagram below to calculate the size of angle ACB. Explain your answer.
(4 marks)
(1)
Angles in a triangle total 180^∘
(1)
ACB = ADB = 37^∘(1)
Angles in the same segment are equal
(1)
2. A, B, C, D are points on the circle with centre O. The chords AC and BD intersect at the point E. The tangent FG goes through the point B. Terry says that angle ACD = 11^∘. Is he correct?
Explain your answer.
(5 marks)
(1)
The tangent meets the radius at a right angle
(1)
θ = ACD = ABD = 15^∘(1)
Angles in the same segment are equal
(1)
No, Terry is wrong
(1)
3 (a). The circle with centre O has 4 points on the circumference, A, B, C, and D. Calculate the size of angle ADB.
(b). Hence state the size of angle AED in the diagram below.
(6 marks)
(a) BAC = 68\div 2 = 34^∘
(1)
Angle at the centre is twice the angle at the circumference
(1)
180 – (34 + 42) = 104^∘(1)
Angles in a triangle total 180^∘
(1)
(b) AED = 42^∘
(1)
Angles in the same segment are equal
(1)
You have now learned how to:
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