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Tsunami waves generally carry a mass (m) of 770 kg of water, travel at a velocity (v) of approximately 10 m/s and have a height (h) of 10 m at landfall. The colony structures can withstand a total energy (TE) 135,000 J before catastrophic damage occurs.Calculate the potential energy (PE) of a tsunami wave based on the provided date. (Note: g = 9.8 m/s2) PE = m•g•h

Tsunami waves generally carry a mass (m) of 770 kg of water, travel at a velocity-example-1
User Jurell
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1 Answer

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8 votes

Given:

The mass is m = 770 kg

The height is h = 10 m.

Also, the acceleration due to gravity is g = 9.8 m/s^2.

To find the potential energy.

Step-by-step explanation:

The potential energy can be calculated as


\begin{gathered} P\mathrm{}E\text{. =mgh} \\ =770*9.8*10 \\ =75460\text{ J} \end{gathered}

Final Answer: The potential energy of Tsunami waves is 75460 J.

User Chewynougat
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