Was the Car Speeding Based on Skid Mark Analysis?

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SUMMARY

The discussion centers on determining whether a car was exceeding the speed limit of 25 mph (11.3 m/s) based on skid mark analysis. Given a skid distance of 32 meters, a coefficient of sliding friction of 0.45, and a car mass of 1000 kg, the calculated deceleration is -4.41 m/s². Using kinematic equations, the initial velocity is determined to be approximately 17 m/s, confirming that the driver was indeed speeding.

PREREQUISITES
  • Understanding of Newton's laws of motion
  • Familiarity with kinematic equations
  • Knowledge of friction coefficients and their application
  • Basic algebra for solving equations
NEXT STEPS
  • Study the application of Newton's second law in real-world scenarios
  • Learn about kinematic equations and their derivations
  • Research the effects of different friction coefficients on vehicle dynamics
  • Explore methods for accident reconstruction in forensic science
USEFUL FOR

Crime scene specialists, forensic engineers, and anyone involved in accident reconstruction will benefit from this discussion, particularly those analyzing vehicle dynamics and skid mark evidence.

Elo21
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Homework Statement



you are a crime scene specialists. a car in an accident had skidded to a stop and left tire tracks for 32 meters. The coefficient of sliding friction between the tires and road is .45, and the car's mass is 1000kg. Was the driver exceeding 25mph (11.3m/s) speed limit?


Homework Equations



u= Force Friction / Normal Force
F net= m*a

I can't figure it out because i don't think i know all the formulas i need to know.

The Attempt at a Solution



I tried but it is to much to write.
 
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Welcome to pf.

You know the friction force acting to slow the car.
So you can either use F=ma to work out the acceleration and what initial speed it would need to take that distance to stop.
Or you know energy= force * distance, work out how much energy you lost to friction over that distance and what initial kinetic energy (and so speed) you must have had.
 
Elo21 said:

Homework Statement



you are a crime scene specialists. a car in an accident had skidded to a stop and left tire tracks for 32 meters. The coefficient of sliding friction between the tires and road is .45, and the car's mass is 1000kg. Was the driver exceeding 25mph (11.3m/s) speed limit?


Homework Equations



u= Force Friction / Normal Force
F net= m*a

I can't figure it out because i don't think i know all the formulas i need to know.

The Attempt at a Solution



I tried but it is to much to write.

The first objective is to determine the car's deceleration. After that, we use kinematics to calculate the car's initial velocity and compare it to the speed limit.

The frictional force acting against the car's motion can be written as:

F_f = u_kF_N

The normal force is mg, so the equation becomes:

F_f = u_kmg

We can reduce this equation to:

ma_f = u_kmg

where, after canceling the masses from both sides, we have:

a_f = u_kg

so

a_f = - 4.41 m/s^2

Now plug this into the kinematics equation:

v_f^2 = v_i^2 + 2a_fx

Final velocity is 0. Just solve for the initial velocity and you should get around 17 m/s. The driver was speeding.
 
thank you.
 
Cryxic said:
The first objective is to determine the car's deceleration. After that, we use kinematics to calculate the car's initial velocity and compare it to the speed limit.

The frictional force acting against the car's motion can be written as:

F_f = u_kF_N

The normal force is mg, so the equation becomes:

F_f = u_kmg

We can reduce this equation to:

ma_f = u_kmg

where, after canceling the masses from both sides, we have:

a_f = u_kg

so

a_f = - 4.41 m/s^2

Now plug this into the kinematics equation:

v_f^2 = v_i^2 + 2a_fx

Final velocity is 0. Just solve for the initial velocity and you should get around 17 m/s. The driver was speeding.

Please do not do the OP's homework for them. That's not how the Homework Help forums work here at the PF.
 

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