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Balaji Venkatraman · Answer 1 · 2023-02-27T16:06:58+0000

According to the statement of the problem:

• we know that the ripple travels outward at a speed ,v = 20 cm/s,,

,

• we must compute the spread of the circular ripple after a time ,t = 25 s,, i.e. we must compute the distance travelled by the ripple after that time.

Because the ripple travels at a constant velocity, the distance travelled after the time t, is given by:

$r(t)=v\cdot t=20\frac{\operatorname{cm}}{s}\cdot25s=20\cdot25\operatorname{cm}=500\operatorname{cm}\text{.}$

The area of the circular ripple in terms of its radius is given by the following formula:

$A=\pi\cdot r^2.$

Because the radius is a function of the time, we have that the area is also a function of time:

$A(t)=\pi\cdot(r(t))^2=\pi\cdot(v\cdot t)^2=\pi\cdot v^2\cdot t^2.$

Replacing the values v = 20 cm/s and t = 25 s, we have that:

$A(t)=\pi\cdot(20(cm)/(s)\cdot25s)^2=\pi\cdot(500\operatorname{cm})^2=25000\pi\cdot cm^2\cong785398.16cm^2.$

Answer

The circular ripple has a radius of 500 cm and its area is 25000π cm² ≅ 785398.16 cm².

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