How to measure the diagonal knowing the area of the house. Geometric figures. Rectangle. Formulas. The intersection point of the diagonals divides them in half
4. Formula for the radius of a circle, which is described around a rectangle through the diagonal of a square:
5. Formula for the radius of a circle, which is described around a rectangle through the diameter of the circle (described):
6. Formula for the radius of a circle, which is described around a rectangle through the sine of the angle that is adjacent to the diagonal, and the length of the side opposite to this angle:
7. Formula for the radius of a circle, which is described around a rectangle through the cosine of the angle that is adjacent to the diagonal, and the length of the side of this angle:
8. Formula for the radius of a circle, which is described around a rectangle through sine acute angle between the diagonals and the area of the rectangle:
The angle between the side and the diagonal of a rectangle.
Formulas for determining the angle between the side and the diagonal of a rectangle:
1. Formula for determining the angle between the side and the diagonal of a rectangle through the diagonal and side:
2. Formula for determining the angle between the side and the diagonal of a rectangle through the angle between the diagonals:
The angle between the diagonals of a rectangle.
Formulas for determining the angle between the diagonals of a rectangle:
1. Formula for determining the angle between the diagonals of a rectangle through the angle between the side and the diagonal:
β = 2α
2. Formula for determining the angle between the diagonals of a rectangle through area and diagonal.
Rectangle is a quadrilateral in which each angle is right.
Proof
The property is explained by the action of feature 3 of the parallelogram (that is, \angle A = \angle C , \angle B = \angle D )
2. Opposite sides are equal.
AB = CD,\enspace BC = AD
3. Opposite sides are parallel.
AB \parallel CD,\enspace BC \parallel AD
4. Adjacent sides are perpendicular to each other.
AB \perp BC,\enspace BC \perp CD,\enspace CD \perp AD,\enspace AD \perp AB
5. The diagonals of the rectangle are equal.
AC = BD
Proof
According to property 1 The rectangle is a parallelogram, which means AB = CD.
Therefore, \triangle ABD = \triangle DCA on two legs (AB = CD and AD - joint).
If both figures ABC and DCA are identical, then their hypotenuses BD and AC are also identical.
So AC = BD.
Of all the figures (only of parallelograms!), only the rectangle has equal diagonals.
Let's prove this too.
ABCD is a parallelogram \Rightarrow AB = CD, AC = BD by condition. \Rightarrow \triangle ABD = \triangle DCA already on three sides.
It turns out that \angle A = \angle D (like the angles of a parallelogram). And \angle A = \angle C , \angle B = \angle D .
We conclude that \angle A = \angle B = \angle C = \angle D. They are all 90^(\circ) . In total - 360^(\circ) .
Proven!
6. Diagonal square equal to the sum squares of its two adjacent sides.
This property is true due to the Pythagorean theorem.
AC^2=AD^2+CD^2
7. The diagonal divides the rectangle into two identical right triangles.
\triangle ABC = \triangle ACD, \enspace \triangle ABD = \triangle BCD
8. The point of intersection of the diagonals divides them in half.
AO = BO = CO = DO
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9. The point of intersection of the diagonals is the center of the rectangle and the circumcircle.
10. The sum of all angles is 360 degrees.
\angle ABC + \angle BCD + \angle CDA + \angle DAB = 360^(\circ)
11. All angles of a rectangle are right.
\angle ABC = \angle BCD = \angle CDA = \angle DAB = 90^(\circ)
12. The diameter of a circle circumscribed around a rectangle is equal to the diagonal of the rectangle.
13. You can always describe a circle around a rectangle.
This property is true due to the fact that the sum of the opposite angles of a rectangle is 180^(\circ)
\angle ABC = \angle CDA = 180^(\circ),\enspace \angle BCD = \angle DAB = 180^(\circ)
14. A rectangle can contain an inscribed circle and only one if it has equal side lengths (it is a square).
The problem of finding the diagonal of a rectangle can be formulated in three different ways. Let's take a closer look at each of them. The methods depend on known data, so how do you find the diagonal of a rectangle?
If two sides are known
In the case when two sides of the rectangle a and b are known, to find the diagonal it is necessary to use the Pythagorean theorem: a 2 + b 2 =c 2, here a and b are legs right triangle, с – hypotenuse of a right triangle. When a diagonal is drawn in a rectangle, it is divided into two right triangles. We know two sides of this right triangle (a and b). That is, to find the diagonal of a rectangle, the following formula is needed: c=√(a 2 +b 2), here c is the length of the diagonal of the rectangle.
By known side and angle, between side and diagonal
Let the side of the rectangle a and the angle it forms with the diagonal of the rectangle α be known. First, let's remember the cosine formula: cos α = a/c, here c is the diagonal of the rectangle. How to calculate the diagonal of a rectangle from this formula: c = a/cos α.
Along a known side, the angle between the adjacent side of the rectangle and the diagonal.
Since the diagonal of a rectangle divides the rectangle itself into two right triangles, it is logical to turn to the definition of sine. Sine is the ratio of the leg opposite this angle to the hypotenuse. sin α = b/c. From here we derive the formula for finding the diagonal of a rectangle, which is also the hypotenuse of a right triangle: c = b/sin α.
Now you are savvy in this matter. You can please your geometry teacher tomorrow!
Definition.
Rectangle is a quadrilateral in which two opposite sides are equal and all four angles are equal.The rectangles differ from each other only in the ratio of the long side to the short side, but all four corners are right, that is, 90 degrees.
The long side of a rectangle is called rectangle length, and the short one - width of the rectangle.
The sides of a rectangle are also its heights.
Basic properties of a rectangle
A rectangle can be a parallelogram, a square or a rhombus.
1. The opposite sides of the rectangle have the same length, that is, they are equal:
AB = CD, BC = AD
2. Opposite sides of the rectangle are parallel:
3. The adjacent sides of a rectangle are always perpendicular:
AB ┴ BC, BC ┴ CD, CD ┴ AD, AD ┴ AB
4. All four corners of the rectangle are straight:
∠ABC = ∠BCD = ∠CDA = ∠DAB = 90°
5. The sum of the angles of a rectangle is 360 degrees:
∠ABC + ∠BCD + ∠CDA + ∠DAB = 360°
6. The diagonals of a rectangle have the same length:
7. The sum of the squares of the diagonal of a rectangle is equal to the sum of the squares of the sides:
2d 2 = 2a 2 + 2b 2
8. Each diagonal of a rectangle divides the rectangle into two identical figures, namely right triangles.
9. The diagonals of the rectangle intersect and are divided in half at the intersection point:
| AO=BO=CO=DO= | d | ||
| 2 |
10. The point of intersection of the diagonals is called the center of the rectangle and is also the center of the circumcircle
11. The diagonal of a rectangle is the diameter of the circumcircle
12. You can always describe a circle around a rectangle, since the sum of opposite angles is 180 degrees:
∠ABC = ∠CDA = 180° ∠BCD = ∠DAB = 180°
13. A circle cannot be inscribed in a rectangle whose length is not equal to its width, since the sums opposite sides are not equal to each other (a circle can only be inscribed in special case rectangle - square).
Sides of a rectangle
Definition.
Rectangle length is the length of the longer pair of its sides. Rectangle width is the length of the shorter pair of its sides.Formulas for determining the lengths of the sides of a rectangle
1. Formula for the side of a rectangle (length and width of the rectangle) through the diagonal and the other side:
a = √ d 2 - b 2
b = √ d 2 - a 2
2. Formula for the side of a rectangle (length and width of the rectangle) through the area and the other side:
| b = dcos | β |
| 2 |
Diagonal of a rectangle
Definition.
Diagonal rectangle Any segment connecting two vertices of opposite corners of a rectangle is called.Formulas for determining the length of the diagonal of a rectangle
1. Formula for the diagonal of a rectangle using two sides of the rectangle (via the Pythagorean theorem):
d = √ a 2 + b 2
2. Formula for the diagonal of a rectangle using the area and any side:
4. Formula for the diagonal of a rectangle in terms of the radius of the circumscribed circle:
d = 2R
5. Formula for the diagonal of a rectangle in terms of the diameter of the circumscribed circle:
d = D o
6. Formula for the diagonal of a rectangle using the sine of the angle adjacent to the diagonal and the length of the side opposite to this angle:
8. Formula for the diagonal of a rectangle through the sine of the acute angle between the diagonals and the area of the rectangle
d = √2S: sin β
Perimeter of a rectangle
Definition.
Perimeter of a rectangle is the sum of the lengths of all sides of a rectangle.Formulas for determining the length of the perimeter of a rectangle
1. Formula for the perimeter of a rectangle using two sides of the rectangle:
P = 2a + 2b
P = 2(a + b)
2. Formula for the perimeter of a rectangle using area and any side:
| P= | 2S + 2a 2 | = | 2S + 2b 2 |
| a | b |
3. Formula for the perimeter of a rectangle using the diagonal and any side:
P = 2(a + √ d 2 - a 2) = 2(b + √ d 2 - b 2)
4. Formula for the perimeter of a rectangle using the radius of the circumcircle and any side:
P = 2(a + √4R 2 - a 2) = 2(b + √4R 2 - b 2)
5. Formula for the perimeter of a rectangle using the diameter of the circumscribed circle and any side:
P = 2(a + √D o 2 - a 2) = 2(b + √D o 2 - b 2)
Area of a rectangle
Definition.
Area of a rectangle called the space limited by the sides of the rectangle, that is, within the perimeter of the rectangle.Formulas for determining the area of a rectangle
1. Formula for the area of a rectangle using two sides:
S = a b
2. Formula for the area of a rectangle using the perimeter and any side:
5. Formula for the area of a rectangle using the radius of the circumcircle and any side:
S = a √4R 2 - a 2= b √4R 2 - b 2
6. Formula for the area of a rectangle using the diameter of the circumscribed circle and any side:
S = a √D o 2 - a 2= b √D o 2 - b 2
Circle circumscribed around a rectangle
Definition.
A circle circumscribed around a rectangle is a circle passing through the four vertices of a rectangle, the center of which lies at the intersection of the diagonals of the rectangle.Formulas for determining the radius of a circle circumscribed around a rectangle
1. Formula for the radius of a circle circumscribed around a rectangle through two sides: