360
The total degrees of both a quadrilateral and a circle is 360 degrees.
Yes
A circle can be circumscribed around a quadrilateral if and only if the quadrilateral is cyclic, meaning that its opposite angles are supplementary. This means that the sum of each pair of opposite angles must equal 180 degrees. If this condition is met, then a single circle can be drawn that passes through all four vertices of the quadrilateral. If not, no such circumscribed circle exists.
The 4 interior angles of a quadrilateral add up to 360 degrees
No, the circle is inscribed in the quadrilateral.
The total degrees of both a quadrilateral and a circle is 360 degrees.
The opposite angles of a quadrilateral inscribed in a circle are supplementary, meaning they add up to 180 degrees. This is due to the property that the sum of the opposite angles of any quadrilateral inscribed in a circle is always 180 degrees. This property can be proven using properties of angles subtended by the same arc in a circle.
Yes
A circle can be circumscribed around a quadrilateral if and only if the quadrilateral is cyclic, meaning that its opposite angles are supplementary. This means that the sum of each pair of opposite angles must equal 180 degrees. If this condition is met, then a single circle can be drawn that passes through all four vertices of the quadrilateral. If not, no such circumscribed circle exists.
False :]
The 4 interior angles of a quadrilateral add up to 360 degrees
No, the circle is inscribed in the quadrilateral.
There is 360 degrees in a quadrilateral.
It has 360o
360 degrees are in a circle no matter how big or small the circle is A circle has 360 degrees.
A cyclic quadrilateral is one where the sum of measures of opposite angles is 180 degrees. I t mostly is formed with the vertices as part of the circumference of a circle.
A quadrilateral triangle is an oxymoron.A quadrilateral has four sides, a triangle has three so a quadrilateral triangle cannot exist. You could therefore say that it has zero degrees.