Show that the height of the right circular
cylinder of greatest volume which can be inscribed
in a right circular cone of height and radius is
one-third of the height of the cone and the
greatest volume of the cylinder is times the
volume of the cone.
Answers
Step-by-step explanation:
The given right circular cone of fixed height (h)and semi-vertical angle (α) is in attachment.
now, a cylinder of radius R and height H is inscribed in the cone.
Then, ∠GAO = α, OG = r, OA = h, OE = R, and CE = H.
We have,
r = h tan α
Now, ΔAOG is similar to ΔCEG,
AO/OG = CE/EG
h/r = H/(r - R)
[EG = OG - OE]
H = h(r - R)/r
H = h(h tanα - R)/htanα
H = (htanα - R)/tanα
now, the volume(V) of cylinder is
V = πR²H = πR² * (htanα - R)/tanα
V = πR²h - πR³/tanα
dV/dR = 2πRh - 3πR²/tanα
NOW, dV/dR = 0
2πRh = 3πR²/tanα
2htanα = 3R
R = 2htanα/3
NOW, d²V/dR² = 2πh - 6π/tanα(2htanα/3)
2πh - 4πh = -2πh
-2πh < 0
By second derivative , the volume of the cylinder is the greatest when R = 2htanα/3.
where, R = 2htanα/3,
H = 1/tanα(htanα - 2htanα/3)
H = 1/tanα(htanα)/3
H = h/3
hence, the height of the cylinder is one-third the height of the cone when the volume of the cylinder is the greatest.
Now, the maximum volume of the cylinder can be
π(2htanα/3)²(h/3)
= π(4h²tan²α/9)(h/3)
= 4/9πh³tan²α
