The conjugated angles They are the ones that, when added, give 360 ° as a result, regardless of whether these angles are adjacent or not. In figure 1 two conjugate angles are shown, denoted as α and β.
In this case, the angles α and β in the figure have a vertex in common and their sides are common, therefore they are adjacent. The relationship between them is expressed as follows:
α + β = 360º
On the other hand, let us now consider two parallel lines cut by a secant, whose arrangement is shown below:
Lines MN and PQ are parallel, while line RS is secant, intersecting the parallels at two points. As can be seen, this configuration determines the formation of 8 angles, which have been denoted with lowercase letters.
Well, according to the definition given at the beginning, the angles a, b, c and d are conjugated. And in the same way, e, f, g and h are, since both cases are true:
a + b + c + d = 360º
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e + f + g + h = 360º
For this configuration, two angles are conjugated if they are on the same side with respect to the secant line RS and both are internal or external. In the first case we speak of angles internal conjugates, while in the second, they are angles external conjugates.
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In figure 2, the external angles are those that are outside the region delimited by the lines MN and PQ, they are the angles A, B, G and H. While the angles that lie between the two lines are C, D, E and F.
Now it is necessary to analyze which angles are to the left and which to the right of the secant.
To the left of RS are angles A, C, E, and G. And to the right are angles B, D, F, and H.
We immediately proceed to determine the conjugate angle pairs, according to the definition given in the previous section:
-A and G, external and to the left of RS.
-D and F, internal and to the right of RS.
-B and H, external and to the right of RS.
-C and E, internal and to the left of RS.
Property of conjugated angles between parallel lines
The conjugated angles between parallel lines are supplementary, that is, their sum is equal to 180º. In this way, for figure 2 the following is true:
A + G = 180º
D + F = 180º
B + H = 180º
C + E = 180º
The pairs of corresponding angles for parallel lines
They are those that are on the same side of the secant line, they are not adjacent and one of them is internal and the other is external. It is important to visualize them, since their measure is the same, because they are opposite angles by the vertex.
Returning to figure 2, the corresponding angle pairs are identified as:
-A and E
-C and G
-B and F
-D and H
Quadrilaterals are 4-sided polygons, among them the square, the rectangle, the trapezoid, the parallelogram and the rhombus, for example. Regardless of their shape, in any of them it is true that the sum of their internal angles is 360º, therefore they meet the definition given at the beginning..
Let's see some examples of quadrilaterals and how to calculate the value of their internal angles according to the information in the preceding sections:
a) Three of the angles of a quadrilateral measure 75º, 110º and 70º. How much should the remaining angle measure?
b) Find the value of the angle ∠Q in figure 3 i.
c) Calculate the measure of the angle ∠A in figure 3 ii.
Let α be the missing angle, it is satisfied that:
α + 75º + 110º + 70º = 360º → α = 105º
Figure 3i shown is a trapezoid and two of its internal angles are right, which have been marked with a colored square at the corners. For this quadrilateral the following is verified:
∠R + ∠S + ∠P + ∠Q = 360º; ∠S = ∠R = 90 °; ∠P = 60º
Therefore:
∠ Q = 2 x 90º + 60º = 240º
The quadrilateral in figure 3 ii is also a trapezoid, for which the following is true:
∠A + ∠B + ∠C + ∠D = 360º
Therefore:
4x -5 + 3x + 10 +180 = 360
7x + 5 = 180
x = (180 - 5) / 7
x = 25
To determine the angle requested in the statement, we use that A = 4x - 5. Substituting the previously calculated value of x it follows that ∠A = (4 × 25) -5 = 95º
Knowing that one of the angles shown is worth 125º, find the measures of the 7 remaining angles in the following figure and justify the answers.
Angle 6 and angle 125º are internal conjugates, whose sum is 180º, according to the property of conjugated angles, therefore:
∠6 + 125º = 180º → ∠6 = 180º - 125º = 55º
On the other hand ∠6 and ∠8 are opposite angles by the vertex, whose measure is the same. Therefore ∠8 measures 55º.
The angle ∠1 is also opposite by the vertex at 125º, then we can affirm that ∠1 = 125º. We can also appeal to the fact that the corresponding pairs of angles have the same measure. In the figure these angles are:
∠7 = 125 º
∠2 = ∠6 = 55 º
∠1 = ∠5 = 125º
∠4 = ∠8 = 55 º
Find the value of x in the following figure and the values of all the angles:
Since they are corresponding pairs, it follows that F = 73º. And on the other hand the sum of the conjugated pairs is 180º, therefore:
3x + 20º + 73º = 180º
3x = 180º - 73º -20º = 87
Finally the value of x is:
x = 87/3 = 29
As for all the angles, they are listed in the following figure:
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