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Surface Area and Volume Formulas: Definition & Formulas with Images and Examples
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Ever wonder how much paint you’d need to cover a box or how much water fits inside a bottle? That’s where surface area and volume come in! Every real-world object around you—whether it’s a cube, sphere, cone, or cylinder—has three dimensions: length, width, and height. The outer covering of these shapes is their surface area, and the space inside them is their volume.
For 2D shapes like squares, circles, or triangles, we only talk about area—since they’re flat, there’s no volume to measure. But for 3D shapes, knowing both surface area and volume is super useful, especially if you're gearing up for tests like the SAT, ACT, PSAT/NMSQT, GED, GRE, GMAT, AP Exams, PERT, Accuplacer, or even the MCAT. You’ll often be asked to calculate these values!
In this guide, we'll break down the essential surface area and volume formulas, complete with easy-to-follow images and a handy formula chart. Plus, we’ll walk you through solved examples to help you master the concepts and feel confident tackling related questions on test day. Let’s dive in and make sense of surface area and volume once and for all!
Surface Area and Volume
The space which is occupied by a two-dimensional flat surface is known as the area. It is measured in square units. The area which is occupied by a three-dimensional object by its outer surface is known as the surface area of the object. That is also measured in square units.
There are two types of surface area which are as follows.
- Total Surface Area
- Lateral Surface Area
Total Surface Area
The Total Surface area of a three-dimensional object can be described as “the total area covered by an object consists of its area of the base as well as the area of the curved part. If the object has a curved surface and base, then the total area will be the sum of the curved surface area and the area of the base.
Lateral Surface Area
The lateral surface area of an object can be described as “the area of an object which is covered by the curved surface area of an object. Lateral surface area is also known as curved lateral surface area. For shapes such as a cone, it is often known as the lateral surface area.
Volume
The total amount of space that a three-dimensional object occupies is known as volume. That is measured in cubic units. The two-dimensional object doesn’t have volume but has area.
Surface Area and Volume Formulas
The following are the surface area formulas of respective 3-D shapes.
CUBOID
Let the cuboid’s length = l, breadth = b, and height = h units. Then,
The volume of the cuboid =
The surface area of the cuboid =
CUBE
Let each edge of a cube is of length a. Then,
The volume of the cube =
The surface area of the cube =
CYLINDER
Let the radius of the cylinder’s base = r and Height = h. Then,
The volume of the cylinder =
The curved surface area of the cylinder =
Total surface area of the cylinder =
CONE
Let radius of base of the cone = r and Height = h. Then,
The cone’s slant height, l =
The cone’s volume =
The cone’s curved surface area =
Total cone’s surface area =
SPHERE
Let the radius of the sphere is r. Then,
The volume of the sphere =
The surface area of the sphere =
HEMISPHERE
Let the radius of a hemisphere is r. Then,
The volume of the hemisphere =
The curved surface area of the hemisphere =
Total surface area of the hemisphere =
Solved Examples of Surface Area and Volume Formulas
Example 1: What is the surface area of a cuboid with length, width and height equal to 4 c m, 2 cm and 5 cm, respectively?
A1: Given, the dimensions of cuboid are:
length, l = 4 cm
width, b = 2 cm
height, h = 5 cm
Surface area of cuboid =
=
= 76 square cm.
Thus, the surface area of cuboid is 76 square cm.
Example 2: What is the volume of a cylinder whose base radii are 2, cm and height is 30 cm?
A2: Given,
Radius of bases, r = 2 cm
Height of cylinder = 30 cm
The volume of cylinder =
=
= 376.99 cubic cm.
Answer: Thus, the volume of the cylinder is 376.99 cubic cm.
Conclusion
To sum it all up—surface area and volume formulas might seem tricky at first, but once you break them down, they’re totally manageable! Whether you’re prepping for the SAT, ACT, GED, or any other big test, knowing these formulas will give you a solid edge. Plus, they’re super useful for real-life situations, too. Keep practicing, stay confident, and soon enough, you’ll be acing these questions without breaking a sweat!
Surface Area and Volume Formulas FAQs
How do you remember surface area and volume formulas?
The easiest way to remember anything is to practice them with smart strategy.If you know the area of the circle then the volume of the cylinder and hence the volume of the cone can be derived in no time. If you know the area of the triangle you may know the area of the pyramid and prism.If you know the area of the rectangle you may easily recall area of square,area of trapezium, volume of trapezoid, volume of cube and cuboid.Learn as you practice them.
How is surface area used in everyday life?
The surface area of a three-dimensional object is the total area of all its faces. In real-life we use the concept of surface areas of different objects when we want to wrap something, paint something, and eventually while building things to get the best possible design.
What is the identity of surface area and volume?
The volume of the cuboid =
How many formulas are there for surface area and volume?
There are 12 formulas for surface area and volume.
What unit is surface area?
The surface area is measured in square units. In the metric system of measurement, the unit of the surface area is like square centimeters (cm2), square decimeters (dm2), and square meters (m2), among others.