What is the rate of change of the cube’s surface area when its edges are 50 mm long?

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asked Jan 14, 2023 133k views

1 Answer

Alexander Tumanin · Answer 1 · 2023-01-18T20:49:01+0000

The first thing we are going to do is identify the volume and surface of the cube and their respective derivatives or rate of change

$\begin{gathered} V\to\text{volume} \\ S\to\text{surface} \\ l=\text{side of a square} \end{gathered}$
$\begin{gathered} V=l^3\to(1) \\ (dV)/(dt)=3l^2(dl)/(dt)\to(2) \end{gathered}$
$\begin{gathered} S=6l^2\to(3) \\ (dS)/(dt)=12\cdot l\cdot(dl)/(dt)\to(4) \end{gathered}$

From the exercise we know that:

$\begin{gathered} (dV)/(dt)=300\frac{\operatorname{mm}^3}{s}\to(5) \\ 3l^2(dl)/(dt)=300\frac{\operatorname{mm}^3}{s}\to(2)=(5) \\ (dl)/(dt)=(300)/(3l^2)\frac{\operatorname{mm}^3}{s}\to(6) \end{gathered}$

The exercise asks us to calculate the rate of change of the surface (4) so we substitute the differential of length (6) in (4)

$\begin{gathered} (dS)/(dt)=12\cdot l\cdot((300)/(3l^2)\frac{\operatorname{mm}^3}{s}) \\ (dS)/(dt)=(1200)/(l)\frac{\operatorname{mm}}{s} \end{gathered}$

what is the rate of change of the cube’s surface area when its edges are 50 mm long?

$\begin{gathered} l=50\operatorname{mm} \\ (dS)/(dt)=\frac{1200}{50\operatorname{mm}}\frac{\operatorname{mm}^3}{s} \\ (dS)/(dt)=24\frac{\operatorname{mm}^2}{s} \end{gathered}$

What is the rate of change of the cube’s surface area when its edges are 50 mm long?

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1 Answer

The answer is 44mm²/s

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