ABCD is a quadrilateral.
Calculate the size of .
ABCD is a quadrilateral.
\( ∢A=80 \)
\( ∢C=95 \)
\( ∢D=45 \)
Calculate the size of \( ∢B \).
ABCD is a trapezoid.
\( ∢A=110 \)
\( ∢B=130 \)
\( ∢C=70 \)
Calculate the size of angle \( ∢D \).
ABCD rhombus.
\( ∢B=80 \)
Calculate the size \( ∢A \)
ABCD is a quadrilateral.
According to the data, calculate the size of \( ∢B \).
ABCD is a rectangle.
\( ∢\text{ABC}=? \)
ABCD is a quadrilateral.
Calculate the size of .
We know that the sum of the angles of a quadrilateral is 360°, that is:
We replace the known data within the following formula:
We move the integers to one side, making sure to keep the appropriate sign:
140°
ABCD is a trapezoid.
Calculate the size of angle .
As known, the sum of angles in a trapezoid is 360 degrees.
Therefore:
Let's substitute the known data into the above formula:
We'll move terms and maintain the appropriate sign:
50
ABCD rhombus.
Calculate the size
According to the properties of a quadrilateral, each pair of opposite angles are equal to each other.
Therefore:
Additionally, we know that the sum of the angles in a quadrilateral equals 360 degrees.
Therefore, we can calculate angles A and D as follows:
Angle A is equal to 100.
100
ABCD is a quadrilateral.
According to the data, calculate the size of .
As we know, the sum of the angles in a square is equal to 360 degrees, therefore:
We replace the data we have in the previous formula:
Rearrange the sides and use the appropriate sign:
50
ABCD is a rectangle.
Since we are given that ABCD is a rectangle, we know that AC is parallel to BD
Therefore, angles ACB and CBD are equal to each other at 30 degrees.
In a rectangle, we know that all angles are equal to 90 degrees, meaning angle ABD is equal to 90.
Now we can calculate angle ABC as follows:
60
ABCD Deltoid.
Calculate the size \( ∢D \)
ABCD is a quadrilateral.
AB||CD
AC||BD
Calculate angle \( ∢A \).
The deltoid ABCD is shown below.
\( ∢C=100 \)
Calculate the size of \( ∢D \).
ABCD Deltoid.
Calculate the size
We know that in a kite, the side angles are equal to each other, meaning:
And therefore also:
Now we can calculate angle A. As we know, the sum of angles in a triangle is 180, so:
Now we can calculate angle D. As we know, the sum of angles in a kite is 360, so:
100
ABCD is a quadrilateral.
AB||CD
AC||BD
Calculate angle .
Angles ABC and DCB are alternate angles and equal to 45.
Angles ACB and DBC are alternate angles and equal to 45.
That is, angles B and C together equal 90 degrees.
Now we can calculate angle A, since we know that the sum of the angles of a square is 360:
90°
The deltoid ABCD is shown below.
Calculate the size of .
75°