NO. This is the way to get the volume of a prism, not the surface area of any three-dimensional figure. To find the surface area of a three-dimensional figure, you must find the area of each of its faces and then add the side-areas together.
The remaining figure is the are of polygons that bounded by three dimensional figure .
Its total surface area.
No. An area is always two-dimensional. It doesn't matter whether you are talking about the area of a square, a circle, an ellipse, or any other flat figure; or the surface are of a three-dimensional figure such as a cube or sphere.
The surface area of the 3-D figure will be the total of the areas of the 2-D figures.
You need to find the area of each two dimensional surface on the figure. Do you have a specific figure in mind?
NO. This is the way to get the volume of a prism, not the surface area of any three-dimensional figure. To find the surface area of a three-dimensional figure, you must find the area of each of its faces and then add the side-areas together.
a solid figure
The lateral area of a three-dimensional object, such as a prism or cylinder, refers to the combined area of all sides excluding the bases. It is calculated by finding the sum of the areas of all the lateral faces of the object.
The answer is surface area.
The remaining figure is the are of polygons that bounded by three dimensional figure .
TRUE: To find the surface area of a three dimensional figure, you must find the area of each of its faces and then add them together.
False.To find the surface area of a three-dimensional figure, find the area of the faces and add them together.
Its total surface area.
No. An area is always two-dimensional. It doesn't matter whether you are talking about the area of a square, a circle, an ellipse, or any other flat figure; or the surface are of a three-dimensional figure such as a cube or sphere.
... face and add them together.
The term area is generally reserved for a two-dimensional polygon, but surface area is the term of the area of the different surfaces on a three-dimensional figure---the faces on the object. So no, they are not the same.