How to Find the Perimeter of a Rhombus

Co-authored by Joseph Meyer

Last Updated: January 16, 2024 Fact Checked

A rhombus is a parallelogram with four congruent sides. ^{[1]
X
Research source} These properties allow for numerous methods for finding the perimeter. Since all four sides of a rhombus are of equal length, finding the perimeter is possible when one side length is known. However, using geometry and trigonometry, it is also possible to find the perimeter even if you do not know the lengths of any sides of the rhombus.

Method 1

Method 1 of 3:

Using Side Length

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1
Set up the formula for perimeter of a rhombus. Since, by definition, all four sides of a rhombus are the same length, the formula is $P=4S$ , where $P$ equals the perimeter, and $S$ equals the length of one side. ^{[2]
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Research source}
- You could also use the formula $P=S+S+S+S$ to find the perimeter, since the perimeter of any polygon is the sum of all its sides. ^{[3]
  X
  Research source}
- If you know that not all sides are the same length, then you are not working with a rhombus, and you cannot use this formula.
- If you don’t know the length of any side of the rhombus, you cannot use this method.
- A square is a special type of rhombus, with four 90-degree angles.
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2
Plug in the side length of the rhombus. Make sure you are substituting for the variable $S$ . ^{[4]
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Research source}
- For example, if you know one side of the rhombus is 4 meters long, your formula will look like this: $P=4(4)$ .
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3
Solve for $P$ . To do this, multiply $S$ by 4. ^{[5]
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Research source}
- For example:
  $P=4(4)$
  $P=16$
  So, the perimeter of the rhombus is $16m$ .

Method 2

Method 2 of 3:

Using Length of Diagonals

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1
Notice that the two diagonals of your rhombus create four congruent triangles. Outline one of these triangles. You will use it to find the length of one side of the rhombus.
- Since the triangles are congruent, it doesn’t matter which one you outline.
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The two diagonals of a rhombus are perpendicular, so the central angle of your triangle will be 90 degrees. ^{[6]
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Research source}
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3
Label the hypotenuse of your triangle. The hypotenuse is the side opposite a 90 degree angle. ^{[7]
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Research source} Traditionally, the hypotenuse is labeled $c$ .
- The hypotenuse of your triangle is one side of the rhombus. So, if you find the length of $c$ , you will know the length of one side of the rhombus.
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Traditionally, these are labeled $a$ and $b$ .
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5
Find the length of side $a$ . To do this, divide the length of the diagonal that $a$ runs along by 2. Label the side length on your triangle.
- Since the diagonals of a rhombus bisect each other, you know that the length on either side of their intersection will be equal. ^{[8]
  X
  Research source} Since side $a$ is half the length of the diagonal, you can find its length by dividing the diagonal length in half.
- For example, if side $a$ runs along a diagonal that is 12 meters long, you can find the length of side $a$ by calculating:
  $a={\frac {12}{2}}$
  $a=6$
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6
Find the length of side $b$ . To do this, divide the length of the diagonal that $b$ runs along by 2. Label the side length on your triangle.
- For example, if side $b$ runs along a diagonal that is 16 meters long, you can find the length of side $b$ by calculating:
  $b={\frac {16}{2}}$
  $b = 8$
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The theorem states that $a^{{2}}+b^{{2}}=c^{{2}}$ . This is a basic geometric formula for finding the side lengths of a right triangle. ^{[9]
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Research source}
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8
Plug in the known side lengths of your triangle into the Pythagorean Theorem. Make sure you substitute for $a$ and $b$ , but the order doesn’t matter due to the commutative property.
- For example, if $a=6$ and $b = 8$ , your equation will look like this: $6^{{2}}+8^{{2}}=c^{{2}}$ .
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9
Solve for $c$ . To do this, you need to square $a$ and $b$ , add, then find the square root of the sum.
- For example:
  $6^{{2}}+8^{{2}}=c^{{2}}$
  $36+64=c^{{2}}$
  $100=c^{{2}}$
  ${\sqrt {100}}={\sqrt {c^{{2}}}}$
  $10=c$
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10
Multiply $c$ by four. Since the hypotenuse is also the side of the rhombus, to find the perimeter of the rhombus, you need to plug the value of $c$ into the formula for the perimeter of a rhombus, which is $P=4S$ , where $s$ equals the length of one side of the rhombus. In this case, it is the same value that we found for $c$ . ^{[10]
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Research source}
- For example: $P=4S$
  $P=4(10)$
  $P=40$
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11
Write your final answer. Don’t forget to include the correct unit of measurement.
- For example, a rhombus that has diagonals measuring 12 and 16 meters long has a perimeter of 40 meters.

Method 3

Method 3 of 3:

Using One Diagonal and One Angle

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1
Label the vertices of your rhombus, if they are not already labeled. It doesn’t matter which variables you give them.
- The vertices (singular vertex ) are the corners of the rhombus.
- For example, you might label the vertices $A$ , $B$ , $C$ , and $D$ .
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2
Notice that the two diagonals of your rhombus create four congruent triangles. Outline one of these triangles. You will use it to find the length of one side of the rhombus. ^{[11]
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Research source}
- Since the triangles are congruent, it doesn’t matter which one you outline; however, for simplicity you should outline a triangle that shares a known angle of the rhombus.
- For example, I know that angle $DAB$ of the rhombus is 70 degrees, so I would outline a triangle that includes point A.
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The two diagonals of a rhombus are perpendicular, so the central angle of your triangle will be 90 degrees. ^{[12]
X
Research source} If this angle is not already labeled, label it $E$ .
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4
Determine the measurement of angle $EAB$ . Remember that the diagonals of a rhombus bisect its vertices. ^{[13]
X
Research source} So, if you know the measurement of angle $DAB$ of the rhombus, divide it in half to find the measurement of angle $EAB$ of the triangle. Label the degrees for this angle on your triangle.
- This method will not work if you do not know the measurement of at least one vertex of your rhombus.
- For example, you know angle $DAB$ of the rhombus is 70 degrees, so the angle $EAB$ of the triangle is half that, or 35 degrees.
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5
Determine the measurement of the missing angle. Remember, the interior degrees of a triangle will add up to 180. ^{[14]
X
Research source} So, if you know the measurement of two angles, you can subtract to find the measurement of the third angle. Label the degrees for this angle on your triangle.
- For example, you know that angle $AEB$ is 90 degrees, and angle $EAB$ is 35 degrees. To find the third angle, sum the two angles you already know, then subtract that sum from 180.
  $90+35=125$
  $180-125=55$
  So, the measurement of angel $ABE$ is 55 degrees.
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6
Determine the length of one side of your triangle. To do this, divide the length of the diagonal that the side runs along by 2. Label the side length on your triangle.
- Since the diagonals of a rhombus bisect each other, you know that the length on either side of their intersection will be equal. ^{[15]
  X
  Research source}
- This method will not work if you do not know the length of at least one diagonal of your rhombus.
- For example, if you know that diagonal $AC$ is 16 centimeters, you can divide 16 in half to find the length of side $AE$ of your triangle. $16\div 2=8$ , so side $AE$ is $8cm$ .
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7
Set up a sine or cosine ratio. Whether you use sine or cosine will depend on which side and angle measurements of your triangle you know. For more information, read Use Right Angled Trigonometry. ^{[16]
X
Research source}
- If you know the length of the side opposite to your angle, use sine. Set up the ratio $\sin(\theta )={\frac {Opposite}{h}}$ , where $\theta$ is the measurement of the angle, “Opposite” is the length of the opposite side, and $h$ is the length of the hypotenuse.
- If you know the length of the side adjacent to your angle, use cosine. Set up the ratio $\cos(\theta )={\frac {Adjacent}{h}}$ . Where $\theta$ is the measurement of the angle, “Adjacent” is the length of the adjacent side, and $h$ is the length of the hypotenuse.
- For example, if you know that angle $EAB$ of your triangle is 35 degrees, and the adjacent side is 8 centimeters, you should use cosine:
  $\cos(35)={\frac {8}{h}}$
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8
Solve the ratio to find the length of the hypotenuse. The length of the hypotenuse is also the length of one side of your rhombus, so you need this measurement to find the perimeter of the rhombus.
- For example:
  $\cos(35)={\frac {8}{h}}$
  $.819={\frac {8}{h}}$
  $.819h=8$
  ${\frac {.819h}{.819}}={\frac {8}{.819}}$
  $h=9.768$
  So, the length of the hypotenuse, side $AB$ is about 9.768.
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9
Multiply the length of the hypotenuse by four. Since the hypotenuse is also the side of the rhombus, to find the perimeter of the rhombus, you need to plug the value of $h$ into the formula for the perimeter of a rhombus, which is $P=4S$ , where $S$ equals the length of one side of the rhombus. In this case, it is the same value that we found for $h$ . ^{[17]
X
Research source}
- For example:
  $P=4S$
  $P=4(9.768)$
  $P=39.072$
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10
Write your final answer. Your answer will be approximate since you rounded the sine or cosine measurement. Don’t forget to include the correct unit of measurement.
- For example, a rhombus that has angle $DAB$ measuring 70 degrees, and diagonal $AC$ measuring 16 centimeters long, the perimeter is about 39 centimeters.

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What is the perimeter and area of a rhombus with diagonals of 24 cm and 7 cm?

Community Answer

To find the perimeter, follow the steps described in method 2, where you use the lengths of the diagonals to set up the Pythagorean Theorem. 1/2 of 24 = 12; 1/2 of 7 = 3.5. So: 12^2 + 3.5^2 = c^2 144 + 12.25 = c^2 156.25 = c^2 12.5 = c, or the length of one side of the rhombus (S) P = 4S P = 4(12.5) P= 50 cm To find the area, you can read the article "Calculate the Area of a Rhombus." (http://www.wikihow.com/Calculate-the-Area-of-a-Rhombus)

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What if the sides are not equal?

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If the sides of the shape are not equal, then the figure is not a rhombus. You can still find the perimeter of any shape by adding up the length of all its sides.

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How do I find the perimeter of a rhombus whose area is 60 cm2 and has a diagonal of 15 cm?

Donagan

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The area (60) is half the product of the diagonals. If d is the unknown diagonal, then 60 = 15d / 2. So 15d = 120, and d = 8 cm. The diagonals of a rhombus are perpendicular to and bisect each other, forming four right triangles, each with legs of 7.5 cm and 4 cm (half each diagonal). By the Pythagorean theorem, we find that each of the sides of the rhombus is √([7.5)² + (4)²] = √[56.25 + 16] = √72.25 = 8.5 cm. The perimeter of the rhombus is four times the length of one side: 34 cm.

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You can add up the lengths of the sides to get the perimeter of any polygon – a triangle, rectangle, pentagon, or other straight-sided shape. Circles and other curved shapes require different formulas.

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How to Find the Perimeter of a Rhombus

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Using Side Length

Using Length of Diagonals

Using One Diagonal and One Angle

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