**It’s been assigned a homework assignment that requires you to calculate the quadrilateral’s area … however, you’re not sure what a quadrilateral actually is. But don’t worry, help is right here! A quadrilateral is a shape that has four sides like rectangles, squares and diamonds are only three examples. To determine a quadrilateral’s size all you have to do is determine the kind of quadrilateral you’re working on and then apply a simple formula. It’s that simple!**

**Be aware of the distinction between a parallelogram. A parallelogram is any shape with two pairs of parallel sides, where the sides facing each other are of the same length. Parallelograms can be described as:**

**Squares four sides of the same length. Four corners each with 90° (right angles).**

**Rectangles: Four sides. opposite sides have the same length. Four corners each 90 degrees.**

**The Rhombuses have four sides each exactly the same size. Four corners. None of them have the same angle as 90 degrees. However, opposite corners have to be of the same angle.**

**Multiply the base times height to determine the size of the rectangle. To determine the rectangle’s area it is necessary to measure two dimensions that are the width, also known as a base (the larger side of the rectangular), and the length also known as height (the shorter edge of the square). You can then multiply these two measurements to find the area. This means:**

**Area = height x base or A = bx the height for short.**

**Example: If the bottom of the rectangle is 10 inches, and the height measures 5 inches. Then the size that the rectangular area is 10 five (b x the height) equals 50 sq inches.**

**Remember that when looking for the area of a shape it will be using square units (square inches or square feet and square meters.) to find the answer.**

**Multiply one of the sides by itself to determine the size of the ****square footage calculator****. They are basically rectangles, and you can apply the same formula for calculating their size. But, because squares’ sides have the same length, you could make use of the shortcut of multiplying the length of one side by itself. It’s the same as multiplying the square’s height by its base since the height and base are the same. Utilize to solve the equation as follows: **

**The area is side x side or A = S2**

**Example Aside: If one side of a square is four feet in length, (t = 4) The square’s area is simply 4 four equals 16 sq. feet.**

**Multiply the diagonals, then divide by two to determine the area of a Rhombus. Be aware of this If you’re trying to find the size of a rhombus it’s not possible to simply multiply two sides adjacent to each other. Instead, you must find those diagonal lines (the lines that connect each set of corners) then multiply them, and then divide by two. This means: **

**Area = (Diag. 1 x Diag. 2)/2 or A = (d1 x d2)/2**

**Example A rhombus with diagonals that measure between six meters or eight meters the area of the rhombus is (6 8 meters x 8)/2 = 48/2 which equals 24 square meters.**

**Alternatively, you can make use of base x height to determine the area of the Rhombus. In fact, you could apply the formula base times height to calculate the size of the homobus. In this case, “base” and “height” aren’t the same as if you multiply two sides that are adjacent, however. The first step is to select one side as the base. Then you will draw a line that runs from the base towards the opposite side. The line should cross each side with a 90-degree angle. Its length on this site is the one you will use to determine the height.**

**Example: A rhombus is a rhombus with sides of 10 miles and five miles. Straight-line distances between sides of the 10 miles (16.1 kilometers) side are three miles (4.8 km). If you are looking to determine the size of the rhombus you’ll multiply 10 x 3 to get 30 sq miles.**

**Be aware that both the rhombus and rectangle formulas can be used for squares. The side-x-side formula above for squares is the most efficient method to calculate the area of these shapes. Since squares technically are both rectangular and rhombuses as in the sense of squares, it is possible to apply the space formulas to obtain the correct answer. Also, for squares:**

**Area = height x base or A = B x h**

**Area = (Diag. 1 x Diag. 2)/2 or A = (d1 x d2)/2**

**An example of a four-sided form is composed of two sides with dimensions of four meters. The area that this shape covers by multiplying the base by its height (4 + 4 equals 16 sq meters.**

**An example: A square’s diagonals are equivalent to 10 centimeters. The square’s surface using this formula for diagonals: (10 x 10)/2 = 100/2 = 50 square centimeters.**

**Finding the Area of a Trapezoid**

**Find out how to identify the trapezoid. A trapezoid is a quadrilateral that has at least two sides running parallel to one another. The corners of the trapezoid can be formed at any angle. The four faces of the trapezoid may be a different lengths.**

**There are two ways you can determine the size of a trapezoid based on the pieces of information you’ve got. Below, you’ll discover how to utilize both.**

**Find the size of the trapezoid. The length of a trapezoid’s peak is the perpendicular line that connects two sides that are parallel. This may not be the identical length as one of the sides due to the sides being typically oriented in a diagonal direction. It is necessary for both the area equations. Here’s how to determine the size of a trapezoid. **

**Find which is the shorter of the two baseline lines (the side that is parallel). Put your pencil in the intersection between that border and one of the sides that are not parallel. Draw a unidirectional line that connects the two bases at right angles. Take this line and measure the maximum height.**

**Sometimes, you can utilize trigonometry in order to determine the height of the object if the height lines, base, and the other side create the right triangle. Read our article on trigonometry for more details.**

**Find the size of the trapezoid by using the height and length of both bases. If you have the size of the trapezoid, as well as its length, apply this equation**

**Surface = (Base 1 plus Base 2)/2 Height, or (a+b)/2 + the height**

**Example A: If you have an oval trapezoid having the base being 7 miles and another foundation of 11 and the height line between the two bases is 2 yards and you find its area as follows: (7 + 11)/2 x 2 = (18)/2 + 2 = 9 2, which is 18 sq yards.**

**When the base is 10, and the sides are both lengths 7 and 9 you can determine the area by doing this: (7 + 9)/2 * 10 = (16/2) * 10 = 8 * 10 = 80**

**Multiply the midsegment twice to calculate the trapezoid’s area. It is an imaginary line that is parallel to the top and bottom sides of the trapezoid. It is precisely equal distance to each. Since the midsegment is always the same as (Base 1 ) + 2)/2 If you are aware of it, you can make an alternative to the trapezoid formula**

**Area = midsegment x the height or A = m x H**

**In essence, it’s exactly the same formula as the formula from the beginning, except that it’s making use of “m” instead of (a + b)/2.**

**“Example”: The trapezoid’s midsegment in the figure above extends 9 feet. That means we can determine the size of the trapezoid just by multiplying 9×2 equals 18 yards exactly as before.**

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