Geometric area- a numerical characteristic of a geometric figure showing the size of this figure (part of the surface bounded by a closed contour of this figure). The size of the area is expressed by the number of square units contained in it.

Triangle area formulas

1. Triangle area formula for side and height
   Area of ​​a triangle equal to half the product of the length of a side of a triangle and the length of the altitude drawn to this side
   
2. The formula for the area of ​​a triangle given three sides and the radius of the circumscribed circle
   
3. The formula for the area of ​​a triangle given three sides and the radius of an inscribed circle
   Area of ​​a triangle is equal to the product of the half-perimeter of the triangle and the radius of the inscribed circle.
   
where S is the area of ​​the triangle,
- the lengths of the sides of the triangle,
- the height of the triangle,
- the angle between the sides and,
- radius of the inscribed circle,
R - radius of the circumscribed circle,

Square area formulas

1. The formula for the area of ​​a square given the length of a side
   square area is equal to the square of its side length.
2. The formula for the area of ​​a square given the length of the diagonal
   square area equal to half the square of the length of its diagonal.
   

   S=	1	2
   	2

where S is the area of ​​the square,
is the length of the side of the square,
is the length of the diagonal of the square.

Rectangle area formula

Rectangle area is equal to the product of the lengths of its two adjacent sides

where S is the area of ​​the rectangle,
are the lengths of the sides of the rectangle.

Formulas for the area of ​​a parallelogram

1. Parallelogram area formula for side length and height
   Parallelogram area
2. The formula for the area of ​​a parallelogram given two sides and the angle between them
   Parallelogram area is equal to the product of the lengths of its sides multiplied by the sine of the angle between them.
   

   a b sinα

where S is the area of ​​the parallelogram,
are the lengths of the sides of the parallelogram,
is the height of the parallelogram,
is the angle between the sides of the parallelogram.

Formulas for the area of ​​a rhombus

1. Rhombus area formula given side length and height
   Rhombus area is equal to the product of the length of its side and the length of the height lowered to this side.
2. The formula for the area of ​​a rhombus given the length of the side and the angle
   Rhombus area is equal to the product of the square of the length of its side and the sine of the angle between the sides of the rhombus.
3. The formula for the area of ​​a rhombus from the lengths of its diagonals
   Rhombus area is equal to half the product of the lengths of its diagonals.
where S is the area of ​​the rhombus,
- length of the side of the rhombus,
- the length of the height of the rhombus,
- the angle between the sides of the rhombus,
1, 2 - the lengths of the diagonals.

Trapezium area formulas

1. Heron's formula for a trapezoid

   Where S is the area of ​​the trapezoid,
   - the length of the bases of the trapezoid,
   - the length of the sides of the trapezoid,
   

To solve problems in geometry, you need to know formulas - such as the area of ​​a triangle or the area of ​​\u200b\u200ba parallelogram - as well as simple tricks, which we will talk about.

First, let's learn the formulas for the areas of figures. We have specially collected them in a convenient table. Print, learn and apply!

Of course, not all geometry formulas are in our table. For example, to solve problems in geometry and stereometry in the second part of the profile exam in mathematics, other formulas for the area of ​​a triangle are also used. We will definitely tell you about them.

But what if you need to find not the area of ​​a trapezoid or triangle, but the area of ​​some complex figure? There are universal ways! We will show them using examples from the FIPI task bank.

1. How to find the area of ​​a non-standard figure? For example, an arbitrary quadrilateral? A simple technique - let's break this figure into those that we all know about, and find its area - as the sum of the areas of these figures.

Divide this quadrilateral by a horizontal line into two triangles with a common base equal to . The heights of these triangles are and . Then the area of ​​the quadrilateral is equal to the sum of the areas of the two triangles: .

Answer: .

2. In some cases, the area of ​​\u200b\u200bthe figure can be represented as the difference of any areas.

It is not so easy to calculate what the base and height in this triangle are equal to! But we can say that its area is equal to the difference between the areas of a square with a side and three right-angled triangles. See them in the picture? We get: .

Answer: .

3. Sometimes in a task it is necessary to find the area not of the whole figure, but of its part. Usually we are talking about the area of ​​\u200b\u200bthe sector - part of the circle. Find the area of ​​\u200b\u200bthe sector of the circle of radius , whose arc length is equal to .

In this picture we see part of a circle. The area of ​​the whole circle is equal to , since . It remains to find out what part of the circle is depicted. Since the length of the entire circle is (since), and the length of the arc of this sector is , therefore, the length of the arc is several times less than the length of the entire circle. The angle on which this arc rests is also times less than a full circle (that is, degrees). This means that the area of ​​the sector will be several times less than the area of ​​the entire circle.

The areas of geometric figures are numerical values ​​characterizing their size in two-dimensional space. This value can be measured in system and non-system units. So, for example, an off-system unit of area is a hundred, a hectare. This is the case if the measured surface is a piece of land. The system unit of area is the square of length. In the SI system, it is customary to consider that the unit of area of ​​a flat surface is a square meter. In the CGS, the unit of area is expressed in square centimetres.

Geometry and area formulas are inextricably linked. This connection lies in the fact that the calculation of the areas of flat figures is based precisely on their application. For many figures, several options are derived, according to which their square sizes are calculated. Based on the data from the problem statement, we can determine the simplest way to solve it. This facilitates the calculation and reduces the probability of calculation errors to a minimum. To do this, consider the main area of ​​\u200b\u200bfigures in geometry.

Formulas for finding the area of ​​any triangle are presented in several ways:

1) The area of ​​a triangle is calculated from the base a and the height h. The base is the side of the figure on which the height is lowered. Then the area of ​​the triangle is:

2) The area of ​​a right triangle is calculated in exactly the same way if the hypotenuse is considered the base. If, however, the leg is taken as the base, then the area of ​​\u200b\u200bthe right-angled triangle will be equal to the product of the legs halved.

The formulas for calculating the area of ​​any triangle do not end there. Another expression contains the sides a,b and the sinusoidal function of the angle γ between a and b. The value of the sine is found in the tables. It can also be found using a calculator. Then the area of ​​the triangle is:

According to this equality, you can also make sure that the area of ​​\u200b\u200ba right triangle is determined through the lengths of the legs. Because the angle γ is a right angle, so the area of ​​a right triangle is calculated without multiplying by the sine function.

3) Consider a special case - a regular triangle, in which side a is known by condition or its length can be found when solving. Nothing more is known about the figure in the geometry problem. Then how to find the area under this condition? In this case, the formula for the area of ​​a regular triangle is applied:

Rectangle

How to find the area of ​​a rectangle and use the dimensions of the sides that have a common vertex? The expression for the calculation is:

If you want to use the lengths of the diagonals to calculate the area of ​​a rectangle, then you need the sine function of the angle formed when they intersect. The formula for the area of ​​a rectangle is:

Square

The area of ​​a square is defined as the second power of the side length:

The proof follows from the definition that a rectangle is called a square. All sides forming a square have the same dimensions. Therefore, the calculation of the area of ​​such a rectangle is reduced to multiplying one by the other, i.e., to the second power of the side. And the formula for calculating the area of ​​a square will take the desired form.

The area of ​​a square can be found in another way, for example, if you use a diagonal:

How to calculate the area of ​​a figure that is formed by a part of a plane bounded by a circle? To calculate the area, the formulas are:

Parallelogram

For a parallelogram, the formula contains the linear dimensions of the side, height, and the mathematical operation - multiplication. If the height is unknown, then how to find the area of ​​the parallelogram? There is another way to calculate. A certain value is required, which will be taken by the trigonometric function of the angle formed by adjacent sides, as well as their length.

The formulas for the area of ​​a parallelogram are:

Rhombus

How to find the area of ​​a quadrilateral called a rhombus? The area of ​​a rhombus is determined using simple mathematical operations with diagonals. The proof relies on the fact that the diagonal segments at d1 and d2 intersect at right angles. The table of sines shows that for a right angle, this function is equal to one. Therefore, the area of ​​a rhombus is calculated as follows:

The area of ​​a rhombus can also be found in another way. It is also not difficult to prove this, given that its sides are the same in length. Then substitute their product into a similar expression for a parallelogram. After all, a special case of this particular figure is a rhombus. Here γ is the interior angle of the rhombus. The area of ​​a rhombus is determined as follows:

Trapeze

How to find the area of ​​a trapezoid through the bases (a and b), if their lengths are indicated in the problem? Here, without a known value of the height length h, it will not be possible to calculate the area of ​​such a trapezoid. Because this value contains the expression for calculation:

The square size of a rectangular trapezoid can also be calculated in the same way. At the same time, it is taken into account that in a rectangular trapezoid, the concepts of height and side are combined. Therefore, for a rectangular trapezoid, you need to specify the length of the side instead of the height.

Cylinder and parallelepiped

Consider what is needed to calculate the surface of the entire cylinder. The area of ​​this figure is a pair of circles, called bases, and a side surface. Circles forming circles have radius lengths equal to r. For the area of ​​a cylinder, the following calculation takes place:

How to find the area of ​​a parallelepiped that consists of three pairs of faces? Its measurements are consistent with a particular pair. Faces that are opposite have the same parameters. First find S(1), S(2), S(3) - square dimensions of unequal faces. Then the surface area of ​​the parallelepiped:

Ring

Two circles with a common center form a ring. They also limit the area of ​​the ring. In this case, both calculation formulas take into account the dimensions of each circle. The first one, which calculates the area of ​​the ring, contains larger R and smaller r radii. More often they are called external and internal. In the second expression, the ring area is calculated using the larger D and smaller d diameters. Thus, the area of ​​the ring according to known radii is calculated as follows:

The area of ​​the ring, using the lengths of the diameters, is determined as follows:

Polygon

How to find the area of ​​a polygon whose shape is not correct? There is no general formula for the area of ​​such figures. But if it is depicted on a coordinate plane, for example, it can be checkered paper, then how to find the surface area in this case? Here they use a method that does not require approximately measuring the figure. They do this: if they find points that fall into the corner of the cell or have integer coordinates, then only them are taken into account. To then find out what the area is, use the formula proved by Pick. It is necessary to add the number of points located inside the polyline with half the points lying on it, and subtract one, i.e. it is calculated in this way:

where C, D - the number of points located inside and on the entire polyline, respectively.

Area formula is necessary to determine the area of ​​a figure, which is a real-valued function defined on a certain class of figures in the Euclidean plane and satisfying 4 conditions:

1. Positive - Area cannot be less than zero;
2. Normalization - a square with a side of unity has an area of ​​1;
3. Congruence - congruent figures have equal area;
4. Additivity - the area of ​​the union of 2 figures without common internal points is equal to the sum of the areas of these figures.

Formulas for the area of ​​geometric shapes.

Geometric figure	Formula	Drawing
The result of adding the distances between the midpoints of opposite sides of a convex quadrilateral will be equal to its semiperimeter.
Circle sector. The area of ​​a sector of a circle is equal to the product of its arc and half the radius.
circle segment. To get the area of ​​segment ASB, it is enough to subtract the area of ​​triangle AOB from the area of ​​sector AOB.	S = 1 / 2 R(s - AC)
The area of ​​an ellipse is equal to the product of the lengths of the major and minor semiaxes of the ellipse times pi.
Ellipse. Another option how to calculate the area of ​​an ellipse is through its two radii.
Triangle. Through base and height. The formula for the area of ​​a circle in terms of its radius and diameter.
Square. Through his side. The area of ​​a square is equal to the square of the length of its side.
Square. Through its diagonal. The area of ​​a square is half the square of the length of its diagonal.
regular polygon. To determine the area of ​​the correct polygon it is necessary to split it into equal triangles, which would have a common vertex in the center of the inscribed circle.	S= r p = 1/2 r n a