How to find the area of a rhombus with one diagonal and perimeter?

The area of a rhombus is the length of the base multiplied by the height. Given a rhombus with one diagonal, measure the length of each side and subtract the sum of the two opposite sides to find the base length. Next, use the Pythagorean Theorem to find the height of the rhombus. The area of a rhombus is equal to the product of the length of the base and the height.

How to find a rhombus area with one diagonal and perimeter?

The area of a rhombus is equal to the length of one of the diagonals multiplied by the length of the other diagonal, which is the sum of the two adjacent sides. This area can be found with a few simple steps. First, find the length of the longer diagonal. Next, use the Pythagorean Theorem to find the length of the shorter diagonal. Finally, find the area by multiplying the length of the longer diagonal by the length of the shorter one.

How do you find the area of a rhombus with one diagonal and perimeter?

If you want to find the area of a rhombus with one diagonal and perimeter, you’ll need to know two sides of the figure. The opposite sides of a rhombus are the two diagonals. The sum of the measures of the two diagonals is equal to the length of each of the sides. Just subtract the smaller diagonal length from each of the sides to find the length of each side.

How to find the

A rhombus with one diagonal has four sides. If you have two sides of the rhombus drawn in and set up as the base line, you can measure the length of the remaining two sides as the height of the triangle. You can use Pythagorean Theorem to find the area of the rhombus.

How to find the area of a rhombus with one diagonal?

We are now going to find the area of a rhombus with one diagonal. The first step is to find the perimeter of a rhombus with one diagonal. The perimeter is the distance around any closed shape, which, in this case, is the length of the sides of the rhombus. We'll notice that the two diagonals of a rhombus are equal, so we'll use that to find the perimeter.