How to find the surface area of a rectangular cylinder?

The surface area of a rectangular cylinder is equal to the product of its height, base and the length of the perimeter of the base. To find the surface area of a rectangular cylinder, you need to use the Pythagorean Theorem: the length of the perimeter of a rectangle is equal to the square root of the sum of the squares of the length of each side.

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If we want to find the surface area of a rectangular cylinder, we can use the Pythagorean Theorem. The length of the sides of the rectangle are L, the width is W, and the height is h. Using the Pythagorean Theodemically, we get the surface area as L2 + W2 or (L × W × h) sqrt{1 + h^2/L^2}.

How to find the surface area of a rectangular cylinder with height and radius of 6?

The surface area can be found by multiplying the length of the rectangle by the width and adding up the length that each of the four sides represents. In this case, the height of the cylinder is 6 and its radius is 1. The length of each side of the rectangle is 3, so the surface area of the rectangular cylinder is 3 × 6 × 4 = 144.

How to find the surface area of a rectangular cylinder with radius 6?

One way to find the surface area of a cylinder is to divide the cylinder into a bunch of flat surfaces (called “faces”) by considering the shape of the base as a square whose sides are the length of each face. Estimating the area of each of the faces is pretty simple: it’s just the length of each side multiplied by the height of the base, so the surface area of a cylinder with radius 6 is simply 6×6×5 or 180 sq.

How to find the surface area of a rectangular cylinder with radius of 6 and height

To find the surface area of a rectangular cylinder with a given radius and height, you need to do some simple algebra. Look at the figure below. The surface area of a cylinder is equal to the base area multiplied by the height. In a rectangular cylinder, the base area is equal to the product of the length and the width. You can use the Pythagorean theorem to find the length of a rectangular cylinder with a given radius.