Geometry Formulas

Geometry Formulas

We all very well know that Geometry is an aspect of mathematics which we use in our life quite often. It deals with shapes, sizes, figures, properties of space and also with the relative position of the figures. It is the branch of mathematics that helps us in calculating the lengths, width, area, and volumes of various plane figures as well as solid shapes. The history of Geometry relates to ancient times. But, in order to make all the calculations in Geometry, we need to learn all the geometry formulas. So, let’s get started!

Geometry Formulas

What is Geometry?

As stated earlier, Geometry is a branch or division of mathematics that studies the various shapes and sizes along with their area and volume. We can divide Geometry into two different parts for better understanding, viz., Plane Geometry and Solid Geometry. As the name suggests, Plane Geometry deals with the perimeter and area of the plane figures such as squares, rectangles, triangles, circles, trapezium, etc.
However, Solid Geometry is the study of the perimeter, area, and volume of the solid shapes such as a cube, cuboid, cylinders, etc. We can also calculate arc length and radius with the help of these formulas. Let us now study various basic and useful Geometry Formulas.

Basic Geometry Formulas

Though there are many Geometry Formulas, some easy and some complicated, we shall here deal with only the basic ones. Let us begin.
  1. The perimeter of a Square:
P = 4a
Where,
PPerimeter
alength of the sides of a Square

  1. Area of a Square:
A = a2
Where,
AArea
aLength of the sides of a Square

  1. Perimeter of a Rectangle:
P = 2(l + b)
Where,
PPerimeter
lLength of the side of the rectangle
bThe breadth of the side of the rectangle

  1. Area of a Rectangle:
A = l × b
Where,
AArea
lLength of the side of the rectangle
bThe breadth of the side of the rectangle

  1. Area of a Triangle:
A = b×h2
Where,
AArea
bthe base of the triangle
hheight of the triangle

  1. Area of a Trapezoid:
A =  b1+b22 h
Where,
AArea
band b2bases of the trapezoid
hheight of the trapezoid

  1. Circumference of a Circle:
C=2×π×r
Where,
CCircumference
rthe radius of the circle

  1. Area of a Circle:
A = πr2
 Where,
AArea
rthe radius of the circle

  1. Surface Area of a Cube:
S = 6a2
 Where,
SSurface area
aLength of the sides of a Cube

  1. Surface Area of a Cylinder:
S = 2 π rh
Where,
SSurface area
rThe radius of the base of the Cylinder
hHeight of the Cylinder

  1. The volume of a Cylinder:
V = π r2h
Where,
VVolume
rThe radius of the base of the Cylinder
hHeight of the Cylinder

  1. Surface Area of a Cone:
S =πr (r+ h²+r² )
Where,
SSurface area
rThe radius of the base of the Cone
hHeight of the Cone

  1. The volume of a Cone:
V= πr² =   hr
Where,
VVolume
rThe radius of the base of the Cone
hHeight of the Cone

  1. Surface Area of a Sphere:
S = 4 π r
Where,
SSurface area
rThe radius of the sphere

  1. The volume of a Sphere:
V = 43  πr³
Where,
VVolume
rThe radius of the sphere

Solved Examples

The following examples shall help you understand the Geometry formulas in a better way.
Q. The length and breadth of a wall are 20 ft. and 15 ft. respectively. The owner wants to get it covered with wallpaper. The price of the wallpaper is ₹50 per sq. ft. Find the cost of covering the wall with the wallpaper?
Solution:
Now, let us first understand what is the shape we are talking about and also what do we need to calculate. Looking at the dimensions, we can say that the shape is a rectangle. Also, as we need to cover the whole area of the wall, we need to calculate its area.
Thus,
Area of the wall = l × b
= 20 × 15
= 300 sq. ft.
Cost of wallpaper = Area of the wall × Cost per sq. ft.
= 300 × 50
=  ₹ 15000

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