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(a) What is the kinetic energy in joules of a 1060-kg automobile traveling at 94 km/h? Incorrect: Your answer is incorrect. answer in:___J(b) How much work would have to be done to bring a 1060-kg automobile traveling at 94 km/h to a stop? answer in:____J

User Flogy
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1 Answer

23 votes
23 votes

Given:

The mass of the automobile is m = 1060 kg

The speed of the automobile is


\begin{gathered} v=\text{ 94 km/h} \\ =(94km)/(h)*\frac{1000\text{ m}}{1\text{ km}}*\frac{1\text{ h}}{3600\text{ s}} \\ =26.11\text{ m/s} \end{gathered}

Required:

(a)The kinetic energy

(b) Work done to bring the automobile to stop.

Step-by-step explanation:

(a) The kinetic energy can be calculated by the formula


KE\text{ = }(1)/(2)mv^2

On substituting the values, the kinetic energy will be


\begin{gathered} K.E.=(1)/(2)*1060*(26.11)^2\text{ } \\ =361318.013\text{ J} \end{gathered}

(b) Work done is defined as the change in kinetic energy.

To stop the automobile, the kinetic energy should be zero.

So, the work done can be calculated as


\begin{gathered} Work\text{ done = change in kinetic energy} \\ W=0-361318.013\text{ J} \\ W\text{ = 361318.013 J} \end{gathered}

Final Answer:

(a)The kinetic energy is 361318.013 J

(b) Work done to bring the automobile to stop is 361318.013 J

User Robert Ngetich
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