9.05 Spheres

Given that 1 cubic centimeter is equivalent to 1 milliliter, how many milliliters of ice cream can fit in each cone, including the hemisphere scoop on top? Round your answer to the nearest milliliter.

Calculate the volume of the hemisphere and the cone, then find their sum. The radius of the hemisphere and cone is 4 \text{ cm}.

A hemisphere is half a sphere, so we can calculate half the volume of a sphere to find the amount of ice cream on top of the cone as follows:

The volume of the ice cream scoop is 134.04 \text{ cm}^3, or 134.04 \text{ mL}.

Now, we can calculate the volume of the ice cream that fills the cone as follows:

Since the volume of the ice cream in the cone is 251.33 \text{ cm}^3 or 251.33 \text{ mL} and the ice cream on top is 134.04 \text{ mL}, the amount of ice cream that can fit in each cone is 251.33 \text{ mL} + 134.04 \text{ mL} \approx 385 \text{ mL}.

The ice cream is bought in 10 \text{ L} tubs. How many whole cones can be made with a single tub of ice cream?

Convert 10 \text{ L} to milliliters by multiplying by \dfrac{1\,000 \text{ mL}}{1 \text{ L}}, then divide the amount by 385 \text{ mL}.

Since 10 \text{ L} is equivalent to 10 \,000 \text{ mL}, we can find the number of ice cream cones that a tub of ice cream makes as follows:10\,000 \text{ mL} \div \dfrac{385 \text{ mL}}{1 \text{ cone}} \approx 25.97 \text{ cones}

A tub of ice cream can make 25 cones.

While 25.97 could be rounded up in a non-contextual problem, the tub of ice cream will not actually have enough to make the next cone with exactly 385 \text{ mL}, so we state that there is enough ice cream to make 25 cones.

Double cones are served with a second hemispherical scoop of the same dimensions as the first scoop. How many double cones can be made with from a 10 \text{ L} tub?

We will need to calculate the amount of ice cream needed for a double cone, then divide the amount of ice cream in a tub by the amount of ice cream needed per double scoop cone.

Since the amount of ice cream in an ice cream cone is approximately 385.37 \text{ mL}, by adding another scoop, the amount of ice cream needed for a double cone is 385.37 \text{ mL} + 134.04 \text{ mL}\approx 519 \text{ mL}.

We can find the number of double scoop ice cream cones that a tub of ice cream makes as follows: 10\,000 \text{ mL} \div \dfrac{519 \text{ mL}}{1 \text{ cone}} \approx 19.27 \text{ cones}

A tub of ice cream can make 19 double scoop ice cream cones.

Note that as we calculated the math further, we used the milliliters of ice cream that were rounded to two decimal places. The most accurate way to add the volume of the next scoop would be to keep the calculations in their original forms for as long as possible before rounding, like this:\left[\dfrac{1}{2} \left(\dfrac{4}{3} \pi \left(4 \right)^3 \right) \right] + \left[ \dfrac{1}{3} \left( \left(\pi \cdot 4^2 \right) 15 \right) \right] + \left[\dfrac{1}{2} \left(\dfrac{4}{3} \pi \left(4 \right)^3 \right) \right] \approx 519.40999

Our calculations yielded the same amount of ice cream in a double cone, because we only needed accuracy to the nearest integer. While performing calculations, we need to keep in mind the degree of accuracy needed for a specific context.