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An astronaut, of mass 95.0 kg, sits on a newton scale as the shuttle takes off. The newton scale reads 5500 N. What is the acceleration of the shuttle?
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An astronaut, of mass 95.0 kg, sits on a newton scale as the shuttle takes off. The newton scale reads 5500 N. What is the acceleration of the shuttle?

User Rickard Lindroth
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Given data:

* The mass of the astronaut is m = 95 kg.

* The force read by the Newton scale when the shuttle takes off is F = 5500 N.

Solution:

According to Newton's second law, the force on the astronaut in terms of the acceleration and mass is,


\begin{gathered} F=\text{ma} \\ a=(F)/(m) \end{gathered}

Substituting the known values,


\begin{gathered} a=(5500)/(95) \\ a=57.9ms^(-2) \\ a\approx58ms^(-2) \end{gathered}

The shuttle and the astronaut are moving with the same acceleration.

Thus, the acceleration of the shuttle is 58 meters per second squared.

User Durjoy
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