Analyzing a Car Accident Using Physics Principles

Understanding the Scenario

You testify as an expert witness in a case involving an accident in which car A slid into the rear of car B, which was stopped at a red light along a road headed down a hill. The slope of the hill is u = 12.03, the cars were separated by distance d = 24.0 m when the driver of car A put the car into a slide, and the speed of car A at the onset of braking was v0 = 18.0 m/s. Now, the question is: With what speed did car A hit car B if the coefficient of kinetic friction was (a) 0.60 (dry road surface) and (b) 0.10 (road surface covered with wet leaves)?

Physics Analysis

To solve this question, we can use equations of motion in physics. First, we need to derive an equation for acceleration that involves the slope and friction. Then, we can use the known variables and the derived acceleration in the equation vf^2 = vi^2 + 2*a*d to determine the speed at which car A hits car B in different road conditions.

Final Answer

This question can be analyzed using equations of motion in physics. First, derive an equation for acceleration that involves the slope and friction. Then, use the known variables and the derived acceleration in the equation vf^2 = vi^2 + 2*a*d to determine the speed at which car A hits car B in different road conditions.

Explanation

The situation described in the question can be analyzed using the principles of physics, particularly by employing the equations of motion and understanding the influence of friction. We will be using the equation vf^2 = vi^2 + 2*a*d, where vf is the final speed, vi is the initial speed, a is acceleration, and d is the distance. For the case of a dry road surface (coefficient of friction, u = 0.6), the acceleration is determined by the slope of the road and the friction, which is -g(u + sin(12.03)). Plugging the known values into the equation, we find the final velocity of car A when it hits car B. Similarly for the case of a road surface covered with wet leaves (coefficient of friction, u = 0.1), we substitute the corresponding u into the same equation to find the final speed of car A. This way, we can quantify the speed of car A on impact in different friction conditions.

With what speed did car A hit car B if the coefficient of kinetic friction was (a) 0.60 (dry road surface) and (b) 0.10 (road surface covered with wet leaves)?

This question can be analyzed using equations of motion in physics. First, derive an equation for acceleration that involves the slope and friction. Then, use the known variables and the derived acceleration in the equation vf^2 = vi^2 + 2*a*d to determine the speed at which car A hits car B in different road conditions.

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