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A 1,407.48 N rocket travels at constant speed for 1,876.33 m in 1.04 seconds. what is the kinetic energy of the rocket?
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A 1,407.48 N rocket travels at constant speed for 1,876.33 m in 1.04 seconds. what is the kinetic energy of the rocket?

User Zemzela
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1 Answer

5 votes

ANSWER


233,741,069.3J

Step-by-step explanation

To find the kinetic energy of the rocket, apply the formula:


E=(1)/(2)mv^2

where m = mass; v = velocity

To find the mass of the rocket, divide its weight by the acceleration due to gravity:


\begin{gathered} m=(W)/(g) \\ m=(1407.48)/(9.8) \\ m=143.62\operatorname{kg} \end{gathered}

To find the velocity of the rocket, divide the distance traveled by the time taken:


\begin{gathered} v=(d)/(t) \\ v=(1876.33)/(1.04) \\ v=1804.16 \end{gathered}

Hence, the kinetic energy of the rocket is:


\begin{gathered} E=(1)/(2)\cdot143.62\cdot(1804.16)^2 \\ E=233,741,069.3J \end{gathered}

User Kevin R
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