The incentre.
An inscribed triangle.
Of course not! There are an infinite number of smaller circles.
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No. Just the opposite.It's easy to remember: INscribed is INside
An inscribed shape is inside a circumscribing shape.
incenter
An inscribed triangle.
Of course not! There are an infinite number of smaller circles.
I love you KAvita
The center of the largest circle that you could draw inside a given triangle is going to be at the incenter of the triangle. This is the point where bisectors from each angle of the triangle meet.
It's at the point where the bisectors of the triangle's interior angles meet.
The slant height of a cone is given by the formula , where r is the radius of the circle and h is the height from the center of the circle to the apex of the cone.It is trivial to see why this formula holds true. If a right triangle is inscribed inside the cone, with one leg of the triangle being the line segment from the center of the circle to its radius, and the second leg of the triangle being from the apex of the cone to the center of the circle, then one leg will have length h, another leg will have length r, and by the Pythagorean Thereon, r2 + h2 = d2, and gives the length of the circle to the apex of the cone.
No. Just the opposite.It's easy to remember: INscribed is INside
An inscribed shape is inside a circumscribing shape.
The incentre, which is the point at which the angle bisectors meet.
Circumscribed; something drawn the OUTSIDE of a shape. Inscribed; Something drawn around the INSIDE of a shape.
Inscribed