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A rocket is in the form of a right circular cylinder closed at the lower end and surmounted by a cone with the same radius as that of the cylinder. The diameter and the height of the cylinder are 6 cm and 12 cm respectively. If the slant height of the conical portion is 5 cm, find the total surface area and the volume of the rocket. (Use π = 3.14).

Mensuration

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Answer

The below figure shows the rocket:

A rocket is in the form of a right circular cylinder closed at the lower end and surmounted by a cone with the same radius as that of the cylinder. The diameter and the height of the cylinder are 6 cm and 12 cm respectively. If the slant height of the conical portion is 5 cm, find the total surface area and the volume of the rocket. Mensuration, ML Aggarwal Understanding Mathematics Solutions ICSE Class 10.

Given,

Height of cylindrical portion (H) = 12 cm.

Radius of cylinder and cone = Diameter2=62\dfrac{\text{Diameter}}{2} = \dfrac{6}{2} = 3 cm.

Slant height of cone (l) = 5 cm.

⇒ h2 = l2 - r2
⇒ h2 = 52 - 32
⇒ h2 = 25 - 9
⇒ h2 = 16
⇒ h = 16\sqrt{16} = 4 cm.

Total surface area of rocket (S) = Curved surface area of cylinder + Base area of cylinder + Curved surface area of cone.

S=2πrH+πr2+πrl=πr(2H+r+l)=3.14×3×(2×12+3+5)=9.42×32=301.44 cm2.\therefore S = 2πrH + πr^2 + πrl \\[1em] = πr(2H + r + l) \\[1em] = 3.14 \times 3 \times (2 \times 12 + 3 + 5) \\[1em] = 9.42 \times 32 \\[1em] = 301.44 \text{ cm}^2.

Volume of the rocket (V) = Volume of cone + Volume of cylinder.

V=13πr2h+πr2H=πr2(h3+H)=3.14×32×(43+12)=3.14×32×(4+363)=3.14×9×403=376.8 cm3.\therefore V = \dfrac{1}{3}πr^2h + πr^2H \\[1em] = πr^2\Big(\dfrac{h}{3} + H) \\[1em] = 3.14 \times 3^2 \times \Big(\dfrac{4}{3} + 12\Big) \\[1em] = 3.14 \times 3^2 \times \Big(\dfrac{4 + 36}{3} \Big) \\[1em] = 3.14 \times 9 \times \dfrac{40}{3} \\[1em] = 376.8 \text{ cm}^3.

Hence, the total surface area of rocket is 301.44 cm2 and volume is 376.8 cm3.

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