I think it is the vertex.
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No. It is the orthocentre.
A. The point where the three altitudes of the triangle intersect. ~Apex
Always for it to be a complete triangle with three altitudes it would have to intersect at a vertex.
the point of concurrency of the altitudes of a triangle is called the orthocenter.
The point where the three medians of a triangle intersect is called the centroid of the triangle.
The point where the three medians of the triangle intersect
The altitudes of a triangle intersect at a point called the Orthocentre.Note : This is often stated as, "The altitudes are concurrent at a point called the Orthocentre."
It is the orthocentre.
A. The point where the three altitudes of the triangle intersect. ~Apex
Always for it to be a complete triangle with three altitudes it would have to intersect at a vertex.
The point where the three altitudes of a triangle intersect is called the orthocenter. This can be located either inside or outside of the triangle.
Obtuse Triangle
Obtuse Triangle
The orthocenter of a triangle is the point where the three altitudes of the triangle intersect. An altitude extends from a vertex (i.e. corner of the triangle) to the side opposite of it, and is perpendicular either to the side of the triangle, or to its extension. The three altitudes of a triangle are always concurrent (intersect at the same point). This point is known as the orthocenter, and always falls on the Euler Line with the centroid, circumcenter, and the center of the triangle's nine-point circle.
No.
Such a point is called the orthocenter. Even the fact that all three altitudes intersect at a point is quite interesting because only two lines are guaranteed to intersect at a point, but we have three.
the point of concurrency of the altitudes of a triangle is called the orthocenter.
The orthocenter of a triangle is the point where the altitudes of the triangle intersect. It may lie inside, outside, or on the triangle depending on the type of triangle. In an acute triangle, the orthocenter lies inside the triangle; in a right triangle, it is at the vertex opposite the right angle; and in an obtuse triangle, it is outside the triangle.