Speed Determination in Vehicle Accidents: Utilizing Recording Speedometers

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In summary, Sean is trying to determine the speed of one vehicle involved in an accident. He knows the speed of the other vehicle and how far they traveled after impact. However, he is not a physics expert and is seeking help from others. There are complicating factors such as the vehicle's mass, tire marks, and energy loss due to deformation. It is suggested that he hire a professional accident reconstructionist for a more accurate assessment.
  • #1
SeanCCD
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I am trying to determine the speed of one vehicle involved in an accident. I know the speed of the other vehicle, and how far the two traveled after impact. There was no braking prior to impact. Vehicle A swerved 90 degrees to the right after impact, while vehicle B rotated 180 degrees to the left. Any suggestions would be appreciated. Thanks.
 

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  • #2
Welcome to PF!

SeanCCD said:
I am trying to determine the speed of one vehicle involved in an accident. I know the speed of the other vehicle, and how far the two traveled after impact. There was no braking prior to impact. Vehicle A swerved 90 degrees to the right after impact, while vehicle B rotated 180 degrees to the left. Any suggestions would be appreciated. Thanks.

Hi Sean! Welcome to PF! :smile:

You should tell us what you have tried, or considered and given up - then we'll be able to help you! :smile:

Oh, and are you told that the cars have the same mass?

Is there any other missing information?
 
  • #3
Ah, good question - vehicle A is a van around 4200 lbs, vehicle B is a pickup around 5500 lbs. I am a total physics noob, so what I have tried is asking my friends who majored in physics in college. One told me 50-57 mph, and the other said he couldn't figure it out because vehicle A rotated so much after impact.
 
  • #4
… what have you tried … ?

erm … you haven't told us what you've tried, or considered.

What equations do you think are relevant? :smile:

Is there any missing information which is bothering you?
 
  • #5
I think there's a misunderstanding here. I'm not a physics student or expert or anything. I wouldn't have the foggiest idea how to proceed. I'm just looking for someone who is good at this sort of thing and can figure it out. Perhaps this isn't the right forum to ask for this kind of help.
 
  • #6
I'm confused … your attached diagram is obviously a question from a physics textbook. :confused:

Why are you trying to solve it?

You would need to understand conservation of momentum and the equation for constant deceleration … :smile:
 
  • #7
I designed that schematic based on an accident report. This isn't a theoretical question, it was a real accident. I am trying to solve it to see if the driver of vehicle B is liable for speeding. As you can see, my skills run more to graphic design that physics.
 
  • #8
SeanCCD said:
I designed that schematic based on an accident report. This isn't a theoretical question, it was a real accident. I am trying to solve it to see if the driver of vehicle B is liable for speeding. As you can see, my skills run more to graphic design that physics.

Ah … it makes sense now! :smile:

erm … midnight here, so I'm going to bed … :zzz:

I'll think about it overnight …

My immediate thoughts are that the theoretical physics of pool-table type colllisions don't work very well in vehicle collisions.

Police usually work out the speed from tyre tracks, or from knowing the coefficient of friction.

Were there any tyre marks on the road in this case?

Have the police (or anyone) measured the coefficient of friction of that actual junction in the same weather and road conditions?

Do you have a copy of the police report?
 
  • #9
One difficult variable is how much of the energy and momentum was lost due to permanent deformation of the vehicle bodies (the inelastic part of the collision).
 
  • #10
Welcome aboard, Sean. Beautiful illustration.
Another complicating factor is how much energy was lost to the tires through lateral skidding. As Tiny-Tim mentioned, skid marks are usually investigated very thoroughly. Side-skidding, though, isn't the same as when brakes are locked up in a straight line. It sort of ties in with Jeff's concern about body deformation. Tires sliding sideways share the damage with axle and suspension components, so the marks should (I think) be shorter than they would be if the tires were rigidly mounted to the vehicle. The steering wheel deflections of both vehicles at every stage would make a difference to the marks from the front tires as well. You stated that the brakes weren't applied before impact, but what about after while the vehicles were still moving?
I take it that this is a fairly serious matter to you. If the police can't or won't investigate fully, you might have to consider hiring a free-lance professional accident reconstructionist. As with medical problems, this might be something that is just not suited to speculation on a site like this no matter how brilliant the respondents are. For one thing, our opinions would have no legal standing whatsoever if this comes to a court case.

edit: I hasten to point out that I don't include myself in the 'brilliant respondent' category. I just try to look at things from a logical standpoint.
 
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  • #11
Danger said:
{snip} If the police can't or won't investigate fully, you might have to consider hiring a free-lance professional accident reconstructionist. {snip}

Hi Sean!

Having though about it overnight, I came to the same conclusion as Danger's above.

Assuming you intend to take this further, you simply can't go into a court and try to put your own mathematical calculations in as evidence.

The court will only accept evidence of this sort from an expert witness.

I'm afraid you need to engage an accident investigator - try yellow-pages, or googling "auto accident investigation".
 
  • #12
I never intended to go to court with a printout of evidence from some 'guys I found on the net', I was only looking for a best guess so I would have a better idea if it's worth the money a professional reconstruction expert would charge. The speed limit was 45, the driver admitted to going 55. If that's all he was doing, then there's no point in pursuing this. If he was going 70, then there is. Obviously this calculation is way more complicated than I initially thought. Is it obvious that I got a C in Calc II?
Thanks anyway guys. :smile:
 
  • #13
Hi Sean!

A speed of 55 looks about right.

Taking stopping distances from paragraph 126 of the British Highway Code, 76 feet (25 metres) corresponds to about 40 mph for braking in a straight line on a dry surface.

So car A would have an initial sideways speed of - very roughly - 40 mph, which means that car B's speed before contact would be - very roughly - in the 50 mph region.

Of course, there are other considerations. Calculations like these are very unreliable. Tyre marks are a much better indication.

Even a speed of 55 mph causes a great deal of damage and injury.

It's up to you …
 
  • #14
I just thought of something that could take a lot of the calculation work out of it. Some vehicles have recording speedometers that either lock the needle in place or cause it to make a mark on the dial under high impact. Have you checked into that possibility?
 

1. What is crash reconstruction?

Crash reconstruction is a process used by forensic scientists to analyze and determine the cause and sequence of events leading up to a motor vehicle accident.

2. Why is crash reconstruction important?

Crash reconstruction helps to accurately determine the factors that contributed to an accident, which can aid in legal proceedings and help prevent future accidents.

3. How is crash reconstruction performed?

Crash reconstruction involves collecting and analyzing evidence from the scene of the accident, including vehicle damage, skid marks, and witness statements. This information is then used to create a computer simulation or model of the accident.

4. What type of information can be determined through crash reconstruction?

Crash reconstruction can determine the speeds and positions of the vehicles involved in the accident, the point of impact, and the sequence of events leading up to the accident.

5. What are the limitations of crash reconstruction?

Crash reconstruction is dependent on the accuracy and availability of evidence, and it cannot always account for human error or other unforeseen factors that may have contributed to the accident.

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