20. A right circular cone is inscribed in a hemisphere so that the base of the cone coincides with the base of the hemisphere. What is the ratio of the height of the cone to the radius of the hemisphere?
(A) Root (3):1
(B) 1:1
(C) 0.5:1
(D) Root (2):1
(E) 2:1
Could anyone explain this question please? My understanding of inscribed is to etch onto the surface, but it wouldn't be possible to etch a right circular cone onto a hemisphere.
I also haven't found any hard and fast geometrical rule that relates the radial base of a right circular cone to its height, is there one? If, say, R=h for a right circular cone then of course this question is trivial.
Failing this, I don't see any information regarding the height of the cone!!
This question has really been perplexing me and I don't think the official answer is very good for it, so any help would be greatly appreciated!
Many thanks.[/spoiler]
(A) Root (3):1
(B) 1:1
(C) 0.5:1
(D) Root (2):1
(E) 2:1
Could anyone explain this question please? My understanding of inscribed is to etch onto the surface, but it wouldn't be possible to etch a right circular cone onto a hemisphere.
I also haven't found any hard and fast geometrical rule that relates the radial base of a right circular cone to its height, is there one? If, say, R=h for a right circular cone then of course this question is trivial.
Failing this, I don't see any information regarding the height of the cone!!
This question has really been perplexing me and I don't think the official answer is very good for it, so any help would be greatly appreciated!
Many thanks.[/spoiler]
