the speed that a tsunami can travel is modeled by the equation $s = 358sqrt{d}$, where $s$ is the speed in…

the speed that a tsunami can travel is modeled by the equation $s = 358sqrt{d}$, where $s$ is the speed in kilometers per hour and $d$ is the average depth of the water in kilometers. what is the approximate depth of water for a tsunami traveling at 200 kilometers per hour?\n0.32 km\n0.75 km\n1.12 km\n3.17 km

the speed that a tsunami can travel is modeled by the equation $s = 358sqrt{d}$, where $s$ is the speed in kilometers per hour and $d$ is the average depth of the water in kilometers. what is the approximate depth of water for a tsunami traveling at 200 kilometers per hour?\n0.32 km\n0.75 km\n1.12 km\n3.17 km

Answer

Answer:

A. 0.32 km

Explanation:

Step1: Substitute given value of S

Given $S = 358\sqrt{d}$ and $S = 200$. So, $200=358\sqrt{d}$.

Step2: Solve for $\sqrt{d}$

$\sqrt{d}=\frac{200}{358}\approx0.5587$.

Step3: Solve for d

$d=(0.5587)^2\approx 0.32$ km.