Renatta Gas is driving through town at 25.0 m/s and begins to accelerate at a constant rate of -1.0 m/s. Eventually Renatta comes to a complete stop. Represent Renatta's accelerated motion by sketching a velocity-time graph. Use kinematic equations to calculate the distance which Renátta travels while decelerating. Then use the velocity-time graph to determine this distance. PSYW
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Renatta Gas is driving through town at 25.0 m/s and begins to accelerate at a constant rate of -1.0...
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