yes it is
The circumcenter, the incenter is the point of concurrency of the angle bisectors of a triangle.
The three perpendicular bisectors (of the sides) of a triangle intersect at the circumcentre - the centre of the circle on which the three vertices of the triangle sit.
The point of concurrency of the altitudes in a triangle is the orthocenter, while the point of concurrency for the perpendicular bisectors is the centroid/circumcenter. Sorry if this is late! xD
incenter of a triangle
equilateral triangle
Yes, that's correct. The point of concurrency for the perpendicular bisectors of a triangle is called the circumcenter, and it is the center of the circumscribed circle of the triangle.
The circumcenter, the incenter is the point of concurrency of the angle bisectors of a triangle.
It is the circumcentre.
circumcenter
circumcenter
Circumcenter.
The perpendicular bisector of ANY chord of the circle goes through the center. Each side of a triangle mentioned would be a chord of the circle therefore it is true that the perpendicular bisectors of each side intersect at the center.
The three perpendicular bisectors (of the sides) of a triangle intersect at the circumcentre - the centre of the circle on which the three vertices of the triangle sit.
The incenter is the point of concurrency of the perpendicular bisectors of the triangle's sides
The point of concurrency of the altitudes in a triangle is the orthocenter, while the point of concurrency for the perpendicular bisectors is the centroid/circumcenter. Sorry if this is late! xD
Isometric, I think * * * * * An obtuse angled triangle.
The orthocentre (where the perpendicular bisectors of the sides meet).