A triangle is one of the most fundamental shapes in geometry, forming the basis of numerous mathematical concepts and real-world applications. It is a polygon with three sides, three vertices, and three angles, with the sum of its interior angles always equal to .
Triangles are widely classified based on their sides and angles.
Classification of Triangles
By Sides
- Equilateral Triangle: All three sides are equal, and each angle measures .
- Isosceles Triangle: Two sides are equal, and the angles opposite these sides are also equal.
- Scalene Triangle: All sides and angles are unequal.
By Angles
- Acute Triangle: All angles are less than .
- Right Triangle: One angle measures exactly .
- Obtuse Triangle: One angle is greater than .
Similarity of Triangles
Two triangles are similar if their corresponding angles are equal and their corresponding sides are in proportion. This is a cornerstone of geometry, used extensively in solving problems related to height, distance, and measurement.
Criteria for Similarity
- AA (Angle-Angle) Criterion: If two angles of one triangle are equal to two angles of another triangle, the triangles are similar.
- SSS (Side-Side-Side) Criterion: If the corresponding sides of two triangles are in proportion, the triangles are similar.
- SAS (Side-Angle-Side) Criterion: If one angle of a triangle is equal to one angle of another triangle and the sides including these angles are in proportion, the triangles are similar.
Example
Problem: In and , , , and . Show that .
Solution:
By the AA criterion:
Additionally, satisfies the SAS criterion.
Important Theorems on Triangles
- Basic Proportionality Theorem (Thales’ Theorem):
If a line is drawn parallel to one side of a triangle, intersecting the other two sides, it divides those sides in the same ratio:
- Pythagoras Theorem:
In a right-angled triangle, the square of the hypotenuse is equal to the sum of the squares of the other two sides:
Example Using Pythagoras Theorem
Problem: In a right-angled triangle, the lengths of two sides are and . Find the hypotenuse.
Solution:
Using the formula:
Substituting the values:
Answer:
Applications of Similarity in Triangles
- Measuring Heights and Distances:
Triangle similarity is used in indirect measurement techniques, such as calculating the height of a building using shadows. - Map Scaling:
Similar triangles are used in maps and scale models to represent real-world distances.
Practice Problems
- Problem: In , , and . Find .
Solution:
Using the Basic Proportionality Theorem:
- Problem: In a triangle, the sides are . Show whether the triangle is right-angled.
Solution:
Using Pythagoras Theorem:
Substituting the values:
The triangle satisfies Pythagoras Theorem, so it is a right-angled triangle.
FAQs
To prove similarity, use the AA, SSS, or SAS criterion:
- .
- .
- .
Similar triangles are used in:
- Indirect measurement techniques (e.g., finding heights of buildings).
- Map scaling and architectural designs.
In a right-angled triangle, one angle measures , and the Pythagoras Theorem holds: .
The sum of the interior angles of a triangle is always .
Related Topics
- nth Term of an AP
- Similarity of Triangles
- The Fundamental Theorem of Arithmetic
- Inches to Centimeters(cm) Converter
- Introduction to Quadratic Equations
- Revisiting Irrational Numbers
- Algebraic Methods of Solving a Pair of Linear Equations
- Ordinal Numbers
- Trigonometry Formulas
- Graphical Method of Solution of a Pair of Linear Equations
- Solution of a Quadratic Equation by Factorisation
- Differentiation Formulas
- Congruence of Triangles
- Geometrical Meaning of the Zeroes of a Polynomial
- Pythagoras Theorem
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