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Four inside angles, all of them being right angles (90 degrees) in each corner. You could also count the four outside angles, outside each corner, each one being 270 degrees. (Adding one inside angle with its outside angle = 360 degrees (a circle)
It is the largest circle that can be drawn so that it is entirely inside a polygon. In the case of a triangle, its centre is the point where the bisectors of the angles of the triangle meet.
Angles inside a hexagon = 6 Angles inside a pentagon = 5 Total = 11
Infinite angles. If you are referring to degrees then the answer is 360, but if the question is angles I can get as many angles as I want inside a circle.
There are many angles inside a circle. You have inscribed angles, right angles, and central angles. These angles are formed from using chords, secants, and tangents.
Angles are like 90˚ and 180˚. A circle is a circle.... "O" <=====this.. So, the only relationship I can guess is that angles can be created inside and outside of the circle. One such example can be a chord and a diameter touching each other at one end. Or a chord and a radius.. Or a radius and another radius. Hope this helps.
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Yes and the angles around the point of intersection add up to 360 degrees.
The Babylonians in about 700 BC used numbers to describe angles, and divided a circle into 360 equal degrees for that purpose, then angles were described in degrees. Using that they were able to record the positions of stars.
It's at the point where the bisectors of the triangle's interior angles meet.
Four inside angles, all of them being right angles (90 degrees) in each corner. You could also count the four outside angles, outside each corner, each one being 270 degrees. (Adding one inside angle with its outside angle = 360 degrees (a circle)
That would be the inside diameter of the circle created by turning the steering wheel completely left or right.
It is the largest circle that can be drawn so that it is entirely inside a polygon. In the case of a triangle, its centre is the point where the bisectors of the angles of the triangle meet.