Angles | Definition, Types and Examples
Last Updated :
20 Sep, 2024
In geometry, an angle is a figure that is formed by two intersecting rays or line segments that share a common endpoint. The word “angle” is derived from the Latin word “angulus”, which means “corner”. The two lines joined together are called the arms of the angle and the measure of the opening between them is the value of the angle between these two lines.
In this article, we will learn about the angles their definition, and their parts in Geometry, their representation, examples along with their types like acute angle, right angle, obtuse angle, etc.
Angle Definition
An Angle is a shape or space formed at the meeting point of two intersecting rays or line segments.
An angle is formed when two rays or line segments are joined together at a common point. The two lines are called 'Arms of the Angle' and the common point of the meeting is called a 'Vertex'.
Symbol of Angle
Angle is represented by the symbol "∠".
Representation of an Angle
While writing an angle "∠" is used along with the points. The common point is written in between the two other points. For Example, if we have ∠AOB, it means O is the common point at which two rays OA and OB are meeting and an angle is formed.
Representation of Angle AOBCheck: Lines and Angles
Parts of an Angle
An angle consists of the following parts :
- Arms
- Vertex
- Initial Side
- Terminal Side
The image shown below shows the parts of an angle.
Parts of an AngleArms of an Angle
The two rays that joint together to form the angles are called the arms of the angle. In the image added below, OP and OQ are the arms of the angle. The space between these two arms is the measure of the angle.
Vertex of an angle
The endpoint of the two arms of the angles is called the vertex of the angle. It is the point where the arms of the angle meet. In the above image added O is the vertex of the angle.
Types of Angles
There are different types of anglebased on basis of four different parameters. They are mentioned as follows:
There are six types of angles on the basis of measurement. They are:
Acute Angle
The angle that measures less than 90° is called as Acute Angle. The degree always measures between 0 and 90. Acute angles measure positive when the rotation is anticlockwise and negative when the rotation of the angle is clockwise.
Acute AngleIn the figure, O is the vertex of the angle, and OA and OB are two intersecting rays that meet at point O forming an angle less than 90°. Hence, ∠AOB is an acute angle.
Right Angle
The angle that exactly measures 90° is called a Right Angle. It is also considered as a half straight angle as half of 180° makes a right angle. The value of the angle may be positive or negative on the basis of the rotation of the angle.
Right AngleIn the figure, O is the vertex of the angle, and OA and OB are two intersecting rays that meet at point O forming an angle of exactly 90°. Hence, ∠AOB is a right angle. Also when two rays meet to form a 90° angle there are called Perpendicular to each other. Here OA and OB are perpendicular to each other.
Learn More, 7 Types of Angles
Obtuse Angle
The angle that measures more than 90° and less than 180° is called an Obtuse Angle. The degree always lies between 90° and 180°. The value of the obtuse angle will be positive if the rotation is anticlockwise and negative if the rotation is clockwise.
Obtuse Angle In the figure, O is the vertex of the angle, and OA and OB are two intersecting rays that meet at point O forming an angle of more than 90°. Hence, ∠AOB is an obtuse angle.
Straight Angle
The angle that measures exactly 180° is a Straight Angle. It is called Straight Angle because when two rays make 180° between them then they are in a straight line.
Straight AngleIn the figure, of a straight angle, we can observe that O is the meeting point of two arms, called the vertex and OA and OB are two sides of the angle.
Reflex Angle
The angle that measures more than 180° and less than 360° is called a Reflex Angle. The degree always lies between 180° and 360°.
Reflex Angle In the figure, O is the vertex of the angle, and OA and OB are two intersecting rays that meet at point O forming an angle of more than 180°. Hence, ∠AOB is a reflex angle.
Complete Angle
The angle whose measurement is 360° is called a Complete Angle. It happens when you make a complete turnaround and reach the initial point then in this case the angle is Complete Angle.
Complete Angle Let's now study angle on the basis of Rotation
Positive and Negative Angles
There are two types of angles on the basis of Rotation. They are listed as follows:
- Positive Angle
- Negative Angle
Positive Angle
The angle that moves anticlockwise from its base and is drawn from the point (x, y) which is its origin is called a positive angle.
Positive AngleNegative Angle
The angle that moves clockwise from its base and is drawn from the point (-x, -y) which is its origin is a negative angle.
Negative Angle Now we will study the angles on the basis of pair.
Types of Angles in Pair
There are five types of angles on the basis of pairs. They are:
Complementary Angles
If the sum of two angles measures 90° then, the angles are said to be Complementary Angles and each angle is called a complement of the other.
The two angles combining together do not require to be adjacent or similar. It can be any two types of angles measuring 90° after addition. For Example, 70 and 20 are complementary angles.
Supplementary Angles
If the sum of two angles measures 180°, the angles are said to be Supplementary Angle. Each Angle is called a Supplement of the other.
For Example, 150° and 30° are Supplementary Angles.
Adjacent Angles
Two angles are said to be adjacent if they have a common vertex, a common arm, and the rest two arms lie on the alternate side of the common arm. Angle AOC and Angle BOC are Adjacent Angles
∠AOC and ∠BOC are here adjacent because they have a common point O, a common vertex OC and rest two arms OA and OB lie on the alternate side of the common arm.
Linear Pair
When the sum of two adjacent angles is 180° then they are called a Linear Pair.
As the name suggests the pair of angles result in a straight line.
Remember that there is one difference between Supplementary Angle and Linear Pair. For Linear Pair, the two angles must be adjacent while there is no such condition for Supplementary Angles. For Supplementary Angles, only the sum of the angles should be 180° doesn't matter if they are adjacent or not.
Here ∠AOC and ∠BOC are linear pairs as AOB is a straight line.
Vertically Opposite Angles.
When two lines intersect each other at a common point then the pair of angles in front of each other are called Vertically Opposite Angles.
- In the below figure, AB and CD are two lines that intersect each other at O, then pairs of Vertically Opposite Angles are (∠AOC, ∠BOD) and (∠AOD, ∠BOC).
- It should be noted that a pair of vertically opposite angles are equal i.e. ∠AOC = ∠BOD) and ∠AOD = ∠BOC).
There are four types of angles formed by transversal and parallel lines. They are :
Corresponding Angles
The Angles that are present at similar positions and on the same side of the transversal are Corresponding Angles. Corresponding Angles are the same in measurement.
In the figure below, ∠AOL and ∠CPM are corresponding angles placed at similar positions one at the exterior and the other at the interior part.
Alternate Interior Angles
The angles which are present on opposite sides of the transversal is the alternative interior angle. They are present at the inner side of the Z formed in the figure. The pair of Alternate Interior angles are equal to each other.
In the figure below, ∠AOT and ∠OTR are alternate interior angles placed interiorly alternate to each other. Similarly, ∠BOT and ∠OTQ are also Alternate Interior Angles.
Alternative Exterior Angles
The angles present on opposite sides of the transversal but externally are the alternative exterior angle. They are spotted at the exterior part of Z and both the angles measure the same.
In the figure below, (∠AOL, ∠DPM) and (∠BOL, ∠CPM) are the pair of Alternate Exterior Angles.
Consecutive Interior Angles
When two interior angles of the same side of the transversal are placed consecutively i.e. just after the other then they are called Consecutive Interior Angles. The sum of the pair of Consecutive Interior Angles is 180°.
In the below figure pair of Consecutive Interior Angles are (∠BOP, ∠CPO) and (∠AOP, ∠OPD).
Interior and Exterior Angles
Interior and exterior angles depends on the region of the angle where they are made. Let's learn about interior and exterior angles below.
Interior and Exterior AnglesInterior Angle
The angles that are formed inside any shape are called the Interior angles. For Example, angle inside a triangle, quadrilateral etc.
Exterior Angle
The angle that are formed outside any shape are called the exterior angles. Suppose we take a triangle ABC then and extend the line BC to D then in that figure we can easily mark the interior and exterior angles.
Here, in the above figure, ∠ABC, ∠BCA, and ∠CAB are interior angles and ∠ACD is the exterior angle.
Measuring an Angle
- Angle can be measured in 'Degree' or 'Radian'. In the case of Degrees, the measurement goes from 0° to 360° while in the case of Radian measurement goes from 0 to π.
- Smaller units of angle are minutes and seconds. Minute is represented by a single apostrophe(') while second is represented by a double apostrophe('').
We should remember below mentioned relations among various units of angles:
- π = 180°
- 1° = 60'
- 1' = 60''
Degree of an Angle
To convert the Angle from Degree to Median, we should multiply the given angle(in degrees) by π/180. Let's see one example
Example: Convert 90° to Radian
Solution:
90° × π/180 = π/2
Radian of an Angle
To convert the Angle from Radian to Degree we should multiply the given angle(in radians) by 180/π. Let's see one example
Example: Convert π/2 to Degrees.
Solution:
(π/2) × (180/π) = 90°
Learn more, Degrees to Radians
How to Measure an Angle?
An angle can be measured easily by using a protector or compass. In general, we use the protector to measure the angles. Follow the steps added below to measure the angle,
- Step 1: Place the protector above one of the arms of the angle.
- Step 2: Measure the value in the anticlockwise direction or clockwise direction depending on the opening of the angle then mark the value where the angle's arms coincide with the value in the protector.
- Step 3: The reading obtained in the protector is the required measure of the angle.
Steps to Construct an Angle
An angle can be easily constructed using the proctor or compass. To construct an angle using the protractor we follow the steps added below,
Step 1: Draw a ray OA of any length that is parallel to horizontal edge of page.
Step 2: Place the protractor on the ray OA such that O is at the centre of the protractor. And OA is at the right side of the protractor.
Step 3: Mark the point from the right side of the protractor at the angle which we want to construct suppose we have to construct an angle of 60°(mark the point as P)
Step 4: Join OP ∠AOP is the required angle.
Article Related to Angles:
Solved Examples on Angles
Example 1: Find the complementary angle of ∠A = 48o.
Solution:
Given angle,
∠A = 48o
Complement of any Angle = 90o - Angle
Complement of ∠A = 90o - 48o
Complement of ∠A = 42o
Thus, the complement of ∠A is 42o
Example 2: Find the supplemenatry angle of ∠A = 48o.
Solution:
Given angle,
∠A = 48o
Supplement of any Angle = 180o - Angle
Supplement of ∠A = 180o - 48o
Supplement of ∠A = 132o
Thus, the complement of ∠A is 42o
Example 3: Find the supplementary angle of ∠A = 98o.
Solution:
Given angle,
∠A = 98o
Supplement of any Angle = 180o - Angle
Complement of ∠A = 180o - 98o
Complement of ∠A = 82o
Thus, the complement of ∠A is 82o
Example 4: Classify the angles into different categories,
- ∠A = 12o
- ∠B = 172o
- ∠C = 232o
- ∠D = 180o
Solution:
(1) ∠A = 12o
As the measure of ∠A is less than 90o, thus it is an acute angle.
∠B = 172o
As the measure of ∠B is greater than 90o, thus it is an obtuse angle.
∠C = 232o
As the measure of ∠C is greater than 180o, thus it is a reflex angle.
∠D = 180o
As the measure of ∠D is equal to 180o, thus it is a straight angle.
Practice Problems on Angles
1. Find the Supplementary Angle of ∠A = 82°
2. Find the Supplement of Angle ∠A = 108°
3. Find the Complementary Angle of ∠A = 45°
4. Find the Complement of Angle ∠A = 60°
5. Calculate the complement of a 40° angle.
6. Find the supplement of a 110° angle.
7. What type of angle is formed by the hands of a clock at 3:00?
8. Determine the measure of the angle formed by the hands of a clock at 8:00.
9. If two angles are complementary and one measures 35°, find the measure of the other angle.
10. What is the measure of an angle that is supplementary to 130°?
11. Identify the type of angle formed when two adjacent angles are each 45°.
Conclusion
Understanding angles is fundamental to the study of geometry and trigonometry, as they form the basis for numerous mathematical concepts and applications. Whether we are measuring angles in degrees or radians, exploring their properties, or applying them in real-world scenarios, angles play a vital role in various fields, including engineering, physics, and architecture. By mastering the different types of angles—acute, obtuse, right, straight, and reflex—we equip ourselves with the tools to analyze shapes, solve various problems in academics as well as in real life .
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What is the Point of Intersection of Two Lines Formula?If we consider two lines a1x + b1y + c1 = 0 and a2x + b2y + c2 = 0, the point of intersection of these two lines is given by the formula:(x, y) = \left( \frac{b_1 c_2 \ - \ b_2 c_1}{a_1 b_2 \ - \ a_2 b_1}, \frac{c_1 a_2 \ - \ c_2 a_1}{a_1 b_2 \ - \ a_2 b_1} \right),The given illustration shows the i
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Slope of the line parallel to the line with the given slopeGiven an integer m which is the slope of a line, the task is to find the slope of the line which is parallel to the given line. Examples: Input: m = 2 Output: 2 Input: m = -3 Output: -3 Approach: Let P and Q be two parallel lines with equations y = m1x + b1, and y = m2x + b2 respectively. Here m1 an
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Minimum distance from a point to the line segment using VectorsGiven the coordinates of two endpoints A(x1, y1), B(x2, y2) of the line segment and coordinates of a point E(x, y); the task is to find the minimum distance from the point to line segment formed with the given coordinates.Note that both the ends of a line can go to infinity i.e. a line has no ending
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Distance between two parallel linesGiven are two parallel straight lines with slope m, and different y-intercepts b1 & b2.The task is to find the distance between these two parallel lines.Examples: Input: m = 2, b1 = 4, b2 = 3 Output: 0.333333 Input: m = -4, b1 = 11, b2 = 23 Output: 0.8 Approach: Let PQ and RS be the parallel lin
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Equation of a straight line passing through a point and making a given angle with a given lineGiven four integers a, b, c representing coefficients of a straight line with equation (ax + by + c = 0), the task is to find the equations of the two straight lines passing through a given point (x1, y1) and making an angle ? with the given straight line. Examples: Input: a = 2, b = 3, c = -7, x1 =
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