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A spherical balloon is being inflated at the rate of $35\, cc$ per minute, When its radius is $7\, cm$, its surface area increases at the rate of
A spherical balloon is being inflated at the rate of $35\, cc$ per minute, When its radius is $7\, cm$, its surface area increases at the rate of
Updated On: May 12, 2024
- 10 s cm/min
- 15 s cm/min
- 20 s cm/min
- 25 s cm/min
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The Correct Option is A
Solution and Explanation
Given , $\frac{dV}{dt} = 35 ,$
where $V$ is volume of spherical balloon.
Also, $V = \frac{4}{3} \pi r^3$
$\Rightarrow\frac{d}{dt} \left(\frac{4}{3} \pi r^{3}\right) = 35$
$ \Rightarrow \frac{4}{3} \pi \times3r^{2} \frac{dr}{dt} = 35 $
$\Rightarrow \frac{dr}{dt} = \frac{35 \times3}{4\pi \times3r^{2}} $
Let $S$ be surface area of sphere then $S = 4\pi r^2$
Taking derivatives w.r.t. $'t'$
$\Rightarrow \frac{dS}{dt} = 8\pi \times r \frac{dr}{dt} = 8\pi \times r\times \frac{35 \times3}{4\pi\times3r^{2}}$
Substituter r = 7
$ \frac{dS}{dt} = \frac{2\times 35 \times 3}{3\times 7} = 10 cm^{2}/ min $
$= 2\log_{e}a$
where $V$ is volume of spherical balloon.
Also, $V = \frac{4}{3} \pi r^3$
$\Rightarrow\frac{d}{dt} \left(\frac{4}{3} \pi r^{3}\right) = 35$
$ \Rightarrow \frac{4}{3} \pi \times3r^{2} \frac{dr}{dt} = 35 $
$\Rightarrow \frac{dr}{dt} = \frac{35 \times3}{4\pi \times3r^{2}} $
Let $S$ be surface area of sphere then $S = 4\pi r^2$
Taking derivatives w.r.t. $'t'$
$\Rightarrow \frac{dS}{dt} = 8\pi \times r \frac{dr}{dt} = 8\pi \times r\times \frac{35 \times3}{4\pi\times3r^{2}}$
Substituter r = 7
$ \frac{dS}{dt} = \frac{2\times 35 \times 3}{3\times 7} = 10 cm^{2}/ min $
$= 2\log_{e}a$
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Concepts Used:
Application of Derivatives
Various Applications of Derivatives-
Rate of Change of Quantities:
If some other quantity ‘y’ causes some change in a quantity of surely ‘x’, in view of the fact that an equation of the form y = f(x) gets consistently pleased, i.e, ‘y’ is a function of ‘x’ then the rate of change of ‘y’ related to ‘x’ is to be given by
\(\frac{\triangle y}{\triangle x}=\frac{y_2-y_1}{x_2-x_1}\)
This is also known to be as the Average Rate of Change.
Increasing and Decreasing Function:
Consider y = f(x) be a differentiable function (whose derivative exists at all points in the domain) in an interval x = (a,b).
- If for any two points x1 and x2 in the interval x such a manner that x1 < x2, there holds an inequality f(x1) ≤ f(x2); then the function f(x) is known as increasing in this interval.
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- The functions are commonly known as strictly increasing or decreasing functions, given the inequalities are strict: f(x1) < f(x2) for strictly increasing and f(x1) > f(x2) for strictly decreasing.
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