Cylinder is one of the basic 3d shapes, in geometry, which has two parallel circular bases at a distance. The two circular bases are joined by a curved surface, at a fixed distance from the center. The line segment joining the center of two circular bases is the axis of the cylinder. The distance between the two circular bases is called the height of the cylinder. LPG gas-cylinder is one of the real-life examples of cylinders.
Since, the cylinder is a three-dimensional shape, therefore it has two major properties, i.e., surface area and volume. The total surface area of the cylinder is equal to the sum of its curved surface area and area of the two circular bases. The space occupied by a cylinder in three dimensions is called its volume.
Here we will learn about its definition, formulas, properties of cylinder and will solve some examples based on them. Apart from this figure, we have concepts of Sphere, Cone, Cuboid, Cube, etc. which we learn in Solid Geometry.
In mathematics, a cylinder is a three-dimensional solid that holds two parallel bases joined by a curved surface, at a fixed distance. These bases are normally circular in shape (like a circle) and the center of the two bases are joined by a line segment, which is called the axis. The perpendicular distance between the bases is the height, “h” and the distance from the axis to the outer surface is the radius “r” of the cylinder.
Below is the figure of the cylinder showing area and height.
A cylinder is a three-dimensional shape consisting of two parallel circular bases, joined by a curved surface. The center of the circular bases overlaps each other to form a right cylinder. The line segment joining the two centers is the axis, that denotes the height of the cylinder.
The top view of the cylinder looks like a circle and the side view of the cylinder looks like a rectangle.
Unlike cones, cube and cuboid, a cylinder does not have any vertices, since the cylinder has a curved shape and no straight lines. It has two circular faces.
Each shape has some properties that differentiate one shape from another. Therefore, cylinders also have its characteristics.
- The bases are always congruent and parallel.
- If the axis forms a right angle with the bases, which are exactly over each other, then it is called a “Right Cylinder”.
- It is similar to the prism since it has the same cross-section everywhere.
- If the bases are not exactly over each other but sideways, and the axis does not produce the right angle to the bases, then it is called “Oblique Cylinder”.
- If the bases are circular in shape, then it is called a right circular cylinder.
- If the bases are in an elliptical shape, then it is called an “Elliptical Cylinder”.
To learn more properties of cylinder.
The cylinder has three major quantities, based on which we have the formulas.
- Lateral Surface Area or curved surface area
- Total Surface Area
Let us see, their formulas now.
Curved Surface Area of Cylinder
The area of the curved surface of the cylinder which is contained between the two parallel circular bases. It is also stated as a lateral surface area. The formula for it is given by:
|Curved Surface Area = 2πrh square units
Total Surface Area of Cylinder
The total surface area of a cylinder is the sum of curved surafce area and the area of two circular bases.
TSA = Curved surface + Area of Circular bases
TSA = 2πrh + 2πr2
We can see, from the above expression, 2πr is common. Therefore,
|Total surface area, A = 2πr(r+h) square units
Volume of Cylinder
Every three dimensional shape or a solid has volume that occupies some space. The volume of the cylinder is the space occupied by it in any three-dimensional plane. The amount of water that could be immersed in a cylinder is described by its volume. The formula for the volume of cylinder is given by:
|Volume of the Cylinder, V = πr2h cubic units
Where ‘h’ is the height and ‘r’ is the radius.
Also, read: Area Of Hollow Cylinder
Question 1: Find the total surface area of the cylinder, whose radius is 5cm and height is 10cm?
Solution: We know, from the formula,
Total surface area of a cylinder, A = 2πr(r+h) square units
Therefore, A = 2π × 5(5 + 10) = 2π × 5(15) = 2π × 75 = 150 × 3.14 = 471 cm2
Question 2: What is the volume of a cylindrical shape water container, that has a height of 7cm and diameter of 10cm?
Diameter of the container = 10cm
Thus, the radius of the container = 10/2 = 5cm
Height of the container = 7cm
As we know, from the formula,
Volume of a cylinder = πr2h cubic units.
Therefore, volume of the given container, V = π × 52 × 7
V = π × 25 × 7 = (22/7) × 25 × 7 = 22 × 25
Frequently Asked Questions – FAQs
What are the characteristics of cylinder?
How many vertices does a cylinder have?
What are the real life examples of cylinder?
What are the formulas of cylinder?
Total surface area = 2πr(r+h) square units
Volume of cylinder = πr2h cubic units
How many bases does the cylinder have?
How to find total surface area of cylinder?
Total surface area = Curved Surface area + Two circular base areas