hey its clear one
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jwhiteside4600:
i think i can 2
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Let R is the radius, H is the height and L is the slant height of the original cone and
let r is the radius, h is the height and l is the slant height of the smaller cone respectively.
Now in ΔOAB and ΔOCD,
∠OAB = ∠OCD {each 90}
∠AOB = ∠COD {common}
So, by AA similarity,
ΔOAB ≅ ΔOCD
=> OB/OD = AB/CD = OA/OC
=> l/L = r/R = h/H
Now, curved surface area of the smaller cone = curved surface area of the cone - curved surface area of the frustum
=> curved surface area of the smaller cone = (1 - 8/9) * curved surface area of the cone
=> curved surface area of the smaller cone = (1/9) * curved surface area of the cone
=> curved surface area of the smaller cone/curved surface area of the cone = 1/9
=> πrl/πRL = 1/9
=> rl/RL = 1/9
=> (r/R)*(l/L) = 1/9
=> (h/H)*(h/H) = 1/9 {using equation 1}
=> (h/H)2 = 1/9
=> (h/H) = 1/3
=> h = H/3
Now, OA/AC = h/(h - h)
=> OA/AC = (H/3)/(H - H/3)
=> OA/AC = (H/3)/(2H/3)
=> OA/AC = 1/2
=> OA : AC = 1 : 2
So, the cones altitude is divided in the ratio 1 : 2
let r is the radius, h is the height and l is the slant height of the smaller cone respectively.
Now in ΔOAB and ΔOCD,
∠OAB = ∠OCD {each 90}
∠AOB = ∠COD {common}
So, by AA similarity,
ΔOAB ≅ ΔOCD
=> OB/OD = AB/CD = OA/OC
=> l/L = r/R = h/H
Now, curved surface area of the smaller cone = curved surface area of the cone - curved surface area of the frustum
=> curved surface area of the smaller cone = (1 - 8/9) * curved surface area of the cone
=> curved surface area of the smaller cone = (1/9) * curved surface area of the cone
=> curved surface area of the smaller cone/curved surface area of the cone = 1/9
=> πrl/πRL = 1/9
=> rl/RL = 1/9
=> (r/R)*(l/L) = 1/9
=> (h/H)*(h/H) = 1/9 {using equation 1}
=> (h/H)2 = 1/9
=> (h/H) = 1/3
=> h = H/3
Now, OA/AC = h/(h - h)
=> OA/AC = (H/3)/(H - H/3)
=> OA/AC = (H/3)/(2H/3)
=> OA/AC = 1/2
=> OA : AC = 1 : 2
So, the cones altitude is divided in the ratio 1 : 2
thank
your ans is correct
wlcm
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