Lateral surface area of cuboid and cube

The lateral area formula is used to find the lateral area of any solid object. The lateral area of any figure is the area of the non-base faces only. Lateral area formulas help in calculating the lateral surface area of different figures including cuboid, cube, cylinder, cone, and sphere.

The lateral surface area of a cube is defined as the total area of the side faces of the cube. A cube is a three-dimensional shape that is made up of 6 congruent square faces. All the 6 square faces of the cube are of the same size. A cube is referred to as:. It is to be noted that a cube is one of the 5 platonic solids. Some real-life examples of a cube are a Rubik's cube, a dice whose faces are squares , an ice cube, etc. Let us learn what is the lateral surface area of a cube along with the formula, a few solved examples, and practice questions here.

Lateral surface area of cuboid and cube

Cube and cuboid are three-dimensional shapes that consist of six faces, eight vertices and twelve edges. The primary difference between them is a cube has all its sides equal whereas the length, width and height of a cuboid are different. Both shapes look almost the same but have different properties. The area and volume of cube, cuboid and also cylinder differ from each other. In everyday life, we have seen many objects like a wooden box, a matchbox, a tea packet, a chalk box, a dice, a book, etc. All these objects have a similar shape. All these objects are made of six rectangular planes or square planes. In mathematics , the shape of these objects is either a cuboid or a cube. Here, in this article, we will learn the difference between cube and cuboid shapes with the help of their properties and formulas of surface area and volume. The cube and cuboid shapes in Maths are three-dimensional shapes. The cube and cuboid are obtained by giving a thickness to the 2D square and rectangle respectively. Cube: A cube is a three-dimensional shape that is defined in the XYZ plane. It has six faces, eight vertices and twelve edges. All the faces of the cube are square in shape and have equal dimensions. Cuboid: A cuboid is also a polyhedron having six faces, eight vertices and twelve edges.

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In geometry, a three-dimensional shape having six rectangular faces is called a cuboid. A cuboid is also known as a regular hexahedron and has six rectangular faces, eight vertices, and twelve edges with congruent, opposite faces. It is a three-dimensional form of a rectangle with four lateral faces and two faces at the top and bottom. Some examples of cuboids that we regularly see are bricks, geometric boxes, shoe boxes, packaging boxes, etc. The surface area of a cuboid is the total area covered by all of its surfaces, and since the cuboid is the 3-D form of a rectangle, therefore, along with length and breadth, the height of the cuboid is also involved in finding the surface area. Surface area and volume are calculated in 3-D figures.

Welcome to Omni's volume of a cube calculator. Ever wondered what is the volume of a cube or how come the formula for the volume of a cube is so simple? Well, we did, and we've got the answers. Here we explain how to calculate the volume of a cube while also taking a look at what makes the cube such a popular shape. Let's start from the beginning. A cube is a 3D object made up of 6 faces, all of which are squares of equal size.

Lateral surface area of cuboid and cube

The lateral area formula is used to find the lateral area of any solid object. The lateral area of any figure is the area of the non-base faces only. Lateral area formulas help in calculating the lateral surface area of different figures including cuboid, cube, cylinder, cone, and sphere. Let us see more about the lateral area formulas along with a few solved examples. The lateral area formula for different types of objects is different. Hence there are many lateral area formulas which are explained below. The lateral area does not include the base area of the object as well as the face parallel to the base. The lateral area formula for various objects are given in the tabular list below:. We measure the lateral surface area for 3-dimensional shapes.

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Example: If the length, breadth and height of a cuboid are 5 cm, 3 cm and 4 cm, then find its total surface area. In Maths, cube is also known as a square parallelepiped. Now, let us learn in detail. Commercial Maths. Now, the total surface area of the cuboid is equal to the sum of the areas of its six rectangular faces. Here, in this article, we will learn the difference between cube and cuboid shapes with the help of their properties and formulas of surface area and volume. We measure the lateral surface area for 3-dimensional shapes. Step 3: Hence, the total surface area of a cuboid is sq. Lateral Surface Area of a Cube with Diagonal. The side length of a cube can be calculated using the lateral surface area. Lateral Surface Area of a Cube The lateral surface area of a cube is defined as the total area of the side faces of the cube. Any two faces other than the opposite faces are called adjacent faces. Share your thoughts in the comments.

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Hence, cube and cuboid shapes have six faces, eight vertices and twelve edges. It is to be noted that a cube is one of the 5 platonic solids. Now, let us learn in detail. The lateral area formula for various objects are given in the tabular list below: List of Lateral Area Formula We measure the lateral surface area for 3-dimensional shapes. Example: If the side length of the cube is 6 cm, then find its perimeter. Share Share Share Call Us. You will be notified via email once the article is available for improvement. Some real-life examples of a cube are a Rubik's cube, a dice whose faces are squares , an ice cube, etc. Kindergarten Worksheets. Both the total surface area and lateral surface area of a cuboid are calculated in terms of length l , breadth b , and height h.