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Find the force necessary to stop a 900. kg jetta traveling at +25 m/s in a time of 5.0 seconds. (2sigfigs)(include units)
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Find the force necessary to stop a 900. kg jetta traveling at +25 m/s in a time of 5.0 seconds. (2sigfigs)(include units)

User Peter Prabu
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1 Answer

3 votes

Given data:

* The mass of the object is m = 900 kg.

* The initial velocity of the object is u = 25 m/s.

* The final velocity of the object is v = 0 m/s.

* The time taken by the object is t = 5 seconds.

Solution:

The force required to stop the object is,


F=(m(v-u))/(t)

Substituting the known values,


\begin{gathered} F=(900*(0-25))/(5) \\ F=-(900*25)/(5) \\ F=-4500\text{ N} \\ F=-4.5*10^3\text{ N} \\ F=-4.5\text{ kN} \end{gathered}

Here, the negative sign indicates the force is applied in the opposite direction to the direction of motion of an object.

Thus, the force applied to the object is - 4.5 kN.

User Gaspar Nagy
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