Use the image to answer the question.

The surface area of a triangular prism can be found by adding the areas of its faces. On the net, there are two congruent triangular faces and three rectangular faces. Each triangular face has an area of 1/2 bh, where b is the base and h is the height. In this case, the base is 10 miles and the height can be found using the Pythagorean theorem: h^2 = 26^2 - 10^2, so h = 24 miles. Therefore, each triangular face has an area of 1/2(10)(24) = 120 mi.².

Each rectangular face has an area of lw, where l is the length and w is the width. The top and bottom rectangular faces each have an area of (10)(24) = 240 mi.². The middle rectangular face has two sides with a length of 24 miles and two sides with a length of 26 miles. Therefore, its area can be found using the formula A = 2LH + 2LW + 2HW, where L and H are the longer and shorter sides, respectively, and W is the width. Plugging in the values, we get A = 2(26)(24) + 2(26)(10) + 2(24)(10) = 1,200 mi.².

Adding up the areas of all the faces, we get a total surface area of 120 + 120 + 240 + 240 + 1,200 = 1,920 mi.². Therefore, the correct answer is not listed and should be 1,920 mi.².

Surface Area of Triangular Prisms Quick Check
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Question
Use the image to answer the question.

An illustration shows a two-dimensional net of a triangular prism with all of its sides open and visible. The net appears as three rectangles joined next to each other. All 4 sides of the middle rectangle are drawn with dashed lines. The area of the left rectangle is 48 square inches. The area of the middle rectangle is 64 square inches, and the area of the rectangle on the right is 80 square inches. Two right triangles adjoin the middle rectangle at the top and bottom, with its perpendicular side measuring 6 inches and the common base side marked with a question mark.

Given the following net, what is the area of the triangular base?

(1 point)
Responses

10 inches
10 inches

48 in.2
, 48 in. squared

24 in.2
24 in. squared

8 inches
8 inches

In a triangular prism, the triangular base consists of two congruent triangles. The area of a triangle can be found using the formula 1/2 bh, where b is the base and h is the height. In this case, the perpendicular side of the right triangles is given as 6 inches, and the base of each triangle is one of the sides of the middle rectangle on the net.

Using the Pythagorean theorem, we can find the length of the base of each right triangle. The hypotenuse is the common base of the triangles and is equal to the width of the rectangles, which is not given. Therefore, we cannot directly calculate the area of the triangles.

Since all the other rectangles are given with their areas, we can use the formula for the surface area of a triangular prism to find the area of the triangular base. The surface area of a triangular prism is given by the formula SA = 2B + Ph, where B is the area of the triangular base, P is the perimeter of the base, and h is the height of the prism. The perimeter of the base is the sum of the lengths of its sides, which is twice the length of the middle rectangle plus the unknown base of the right triangles.

The length of the middle rectangle is not given explicitly, but we know that the total area of the middle rectangle is 64 square inches and that its width is the same as that of the other rectangles, which is also unknown. Therefore, we cannot directly calculate the length of the middle rectangle or the perimeter of the triangular base.

Without more information, we cannot find the area of the triangular base. Therefore, the correct answer is not listed and should be "Cannot be determined."