The Inscribed Angle Theorem – Explanation & Examples (2024)

The circular geometry is really vast. A circle consists of many parts and angles. These parts and angles are mutually supported by certain Theorems, e.g., the Inscribed Angle Theorem, Thales’ Theorem, and Alternate Segment Theorem.

We will go through the inscribed angle theorem, but before that, let’s have a brief overview of circles and their parts.

Circles are all around us in our world. There exists an interesting relationship among the angles of a circle. To recall, a chord of a circle is the straight line that joins two points on a circle’s circumference. Three types of angles are formed inside a circle when two chords meet at a common point known as a vertex. These angles are the central angle, intercepted arc, and the inscribed angle.

For more definitions related to circles, you need to go through the previous articles.

In this article, you will learn:

The inscribed angle and inscribed angle theorem,
we will also learn how to prove the inscribed angle theorem.

What is the Inscribed Angle?

An inscribed angle is an angle whose vertex lies on a circle, and its two sides are chords of the same circle.

On the other hand, a central angle is an angle whose vertex lies at the center of a circle, and its two radii are the sides of the angle.

The intercepted arc is an angle formed by the ends of two chords on a circle’s circumference.

Let’s take a look.

In the above illustration,

α = The central angle

θ = The inscribed angle

β = the intercepted arc.

What is the Inscribed Angle Theorem?

The inscribed angle theorem, which is also known as the arrow theorem or the central angle theorem, states that:

The size of the central angle is equal to twice the size of the inscribed angle. The inscribed angle theorem can also be stated as:

α = 2θ

The size of an inscribed angle is equal to half the size of the central angle.

θ = ½ α

Where α and θ are the central angle and inscribed angle, respectively.

How do you Prove the Inscribed Angle Theorem?

The inscribed angle theorem can be proved by considering three cases, namely:

When the inscribed angle is between a chord and the diameter of a circle.
The diameter is between the rays of the inscribed angle.
The diameter is outside the rays of the inscribed angle.

Case 1: When the inscribed angle is between a chord and the diameter of a circle:

To prove α = 2θ:

△ CBD is an isosceles triangle whereby CD = CB = the radius of the circle.
Therefore, ∠ CDB = ∠ DBC = inscribed angle = θ
The diameter AD is a straight line, so ∠BCD = (180 – α) °
By triangle sum theorem, ∠CDB + ∠DBC + ∠BCD = 180°

θ + θ + (180 – α) = 180°

Simplify.

⟹ θ + θ + 180 – α = 180°

⟹ 2θ + 180 – α = 180°

Subtract 180 on both sides.

⟹ 2θ + 180 – α = 180°

⟹ 2θ – α = 0

⟹ 2θ = α. Hence proved.

Case 2: when the diameter is between the rays of the inscribed angle.

To prove 2θ = α:

First, draw the diameter (in dotted line) of the circle.

Let the diameter bisects θ into θ₁ and θ Similarly, the diameter bisects α into α₁and α₂.

⟹ θ₁ + θ₂ = θ

⟹ α₁+ α₂ = α

From the first case above, we already know that,

⟹ 2θ₁= α₁

⟹ 2θ₂ = α₂

Add the angles.

⟹ α₁+ α₂ = 2θ₁+ 2θ₂

⟹ α₁+ α₂ = 2 (θ₁+ 2θ₂)

Hence, 2θ = α:

Case 3: When the diameter is outside the rays of the inscribed angle.

To prove 2θ = α:

Draw the diameter (in dotted line) of the circle.

Since 2θ₁= α₁

⟹ 2 (θ₁+ θ) = α + α₁

⟹ But, 2θ₁= α₁and 2θ₂ = α₂

⟹ By substitution, we get,

2θ = α:

Solved examples about inscribed angle theorem

Example 1

Find the missing angle x in the diagram below.

Solution

By inscribed angle theorem,

The size of the central angle = 2 x the size of the inscribed angle.

Given, 60° = inscribed angle.

Substitute.

The size of the central angle = 2 x 60°

= 120°

Example 2

Given that ∠QRP = (2x + 20) ° and ∠PSQ = 30°, find the value of x.

Solution

By inscribed angle theorem,

Central angle = 2 x inscribed angle.

∠QRP =2∠PSQ

∠QRP = 2 x 30°.

= 60°.

Now, solve for x.

⟹ (2x + 20) ° = 60°.

Simplify.

⟹ 2x + 20° = 60°

Subtract 20° on both sides.

⟹ 2x = 40°

Divide both sides by 2.

⟹ x = 20°

So, the value of x is 20°.

Example 3

Solve for angle x in the diagram below.

Solution

Given the central angle = 56°

2∠ADB =∠ACB

2x = 56°

Divide both sides by 2.

x = 28°

Example 4

If ∠ YMZ = 150°, find the measure of ∠MZY and ∠ XMY.

Solution

Triangle MZY is an isosceles triangle, Therefore,

∠MZY =∠ZYM

Sum of interior angles of a triangle = 180°

∠MZY = ∠ZYM = (180° – 150°)/2

= 30° /2 = 15°

Hence, ∠MZY = 15°

And by inscribed angle theorem,

2∠MZY = ∠ XMY

∠ XMY = 2 x 15°

= 30°

FAQs

The Inscribed Angle Theorem – Explanation & Examples? ›

Inscribed angle is between a chord and the diameter of a circle. In the above image, let us consider that ∆OBD is an isosceles triangle where OD = OB = radius of the circle. Therefore, ∠ODB = ∠DBO = inscribed angle = θ. The diameter AD is a straight line hence ∠BOD = 180 - ∠AOB(call it x).

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What is the inscribed angle theorem example? ›

Example 1:

By the inscribed angle theorem, the measure of an inscribed angle is half the measure of the intercepted arc. The measure of the central angle ∠ P O R of the intercepted arc P R ⌢ is . Therefore, m ∠ P Q R = 1 2 m ∠ P O R = 1 2 ( 90 ° ) = 45 ° .

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What is the statement of the inscribed angle theorem? ›

The inscribed angle theorem states that an angle θ inscribed in a circle is half of the central angle 2θ that subtends the same arc on the circle. Therefore, the angle does not change as its vertex is moved to different positions on the circle.

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What is the rule for inscribed angles? ›

The Inscribed Angle Theorem states that the measure of an inscribed angle is half the measure of its intercepted arc. Inscribed angles that intercept the same arc are congruent.

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What is a real life example of an inscribed angle? ›

A real life example of an inscribed angle is a sniper target grid.

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How do you find the missing angle of an inscribed angle? ›

Step 1: Determine the arc that corresponds to the inscribed angle. Step 2: Use your knowledge of circles and arc measures to determine the missing measure for the intercepted arc. Step 3: Determine the measure of the inscribed angle using the formula measure of angle = half of the measure of its intercepted arc.

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Why does the inscribed angle theorem work? ›

The inscribed angle theorem is also called the angle at the center theorem as the inscribed angle is half of the central angle. Since the endpoints are fixed, the central angle is always the same no matter where it is on the same arc between the endpoints.

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How will you know that an inscribed angle is a right angle? ›

Corollary (Inscribed Angles Conjecture III ): Any angle inscribed in a semi-circle is a right angle. Proof: The intercepted arc for an angle inscribed in a semi-circle is 180 degrees. Therefore the measure of the angle must be half of 180, or 90 degrees. In other words, the angle is a right angle.

Do inscribed angles add up to 180? ›

Quadrilaterals inscribed in a circle have the distinctive property that their opposite angles are supplementary, adding up to 180 degrees. This arises from the Inscribed Angle Theorem and the congruence of angles intercepting the same arcs.

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How to find the angle of an inscribed triangle? ›

As Diameter is a line segment passing through the center and it has an angle of 180 degrees so the measure of the intercepted arc will be 180 degrees and then by the inscribed angle theorem that inscribed angle will be 90 degrees. so the inscribed angle would be 180/2 = 90 degree.

How can you tell the difference between an inscribed angle and a circ*mscribed angle? ›

Inscribed Angle: An inscribed angle is formed with two chords of a circle. In the figure, ∠ G K H is an inscribed angle. Circ*mscribed Angle: A circ*mscribed angle is formed when tangent lines to a circle intersect outside of the circle. In the figure, ∠ G K H is circ*mscribed.

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What is the formula for arcs and inscribed angles? ›

An inscribed angle is formed when two lines pass through the circle's circumference and meet at a vertex on another part of the circle's circumference. The intercepted arc that is formed is equal to the inscribed angle, multiplied by two (intercepted arc measure = inscribed angle * 2).

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What are examples of corresponding angle theorem? ›

What are Corresponding Angles?

Here, ∠1 and ∠5 are corresponding angles because both angles are on the corresponding corners on the left-hand side of the transversal.
Similarly, ∠2 and ∠6, ∠3 and ∠7, and ∠4 and ∠8 are pairs of corresponding angles, so.
∠1 = ∠5,
∠2 = ∠6,
∠3 = ∠7, and.
∠4 = ∠8.

What is an example of the angle side theorem? ›

Examples on Angle Side Angle

Example 1: Parallelogram ABCD is made up of two triangles ΔABC and ΔACD. It is given that ∠ABC is 70° and ∠BCA is 30°, which are equal to ∠CDA and ∠DAC respectively. Side BC is equal to side AD.

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What is an example of congruent angles theorem? ›

For example, suppose we build a square room where all the corners are 90°. Its four corners would all have congruent angles because they are all the same measure. Similarly, we know an isosceles triangle has two angles with the same measure. These two angles are therefore congruent.

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What is an example of the HL congruence theorem? ›

Example. Using HL theorem, prove that triangle ABC is congruent to triangle XYZ ( Δ A B C ≅ Δ X Y Z ). Notice that triangles ABC and XYZ are right triangles. So the HL theorem can be used to prove they are congruent.

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