Rear-end collision - thrown forward at all?

  • Thread starter autodidude
  • Start date
  • Tags
    Collision
In summary, if you're in a vehicle and are hit from behind, then you would feel the seat push against you right? If you didn't have your seatbelt on, would you be thrown forward at all? If so, why? Wouldn't you be experiencing the same accleration as the vehicle you're in?If you feel the seat pushing against you, doesn't it stand to reason that you are feeling the impact of the car behind you?Seat pushing against you would be your body at rest and the seat accelerating into your back...what I meant by the last bit is would you pushed forward at all by the the impact of the car...you know how if you have three coins, you hold the
  • #1
autodidude
333
0
If you're in a vehicle and are hit from behind, then you would feel the seat push against you right? If you didn't have your seatbelt on, would you be thrown forward at all? If so, why? Wouldn't you be experiencing the same accleration as the vehicle you're in?

Also, would you feel the impact from the car behind at all (from waves that travel through the car or something like that)
 
Physics news on Phys.org
  • #2
If you feel the seat pushing against you, doesn't it stand to reason that you are feeling the impact of the car behind you?
 
  • #3
Seat pushing against you would be your body at rest and the seat accelerating into your back...what I meant by the last bit is would you pushed forward at all by the the impact of the car...you know how if you have three coins, you hold the first one down, put the second one on one side of the first coin, then smash the third into the opposite side of the first one, the second goes flying? That's what I'm talking about, would your body be a bit like the second coin? (think this has to do with conservation of momentum?)
 
  • #4
Of course you would be thrown forward with and by the car, but then (assuming the brakes are on) the car will quickly decelerate and you may become dependent on your seatbelt to avoid overtaking the dash.
 
  • #5
autodidude said:
you know how if you have three coins, you hold the first one down, put the second one on one side of the first coin, then smash the third into the opposite side of the first one, the second goes flying? That's what I'm talking about, would your body be a bit like the second coin? (think this has to do with conservation of momentum?)
Yup, that does happen in a collision like this. It's a little different when masses are different, but it does work. A good demo of the effect is dropping a basketball with a tennis ball on top of it. The impact with ground makes the tennis ball shoot way out higher than the point you dropped both from. With a little bit of imagination, I hope you can see how this is similar to a rear end collision.

So yes. When rear ended, you will first hit the seat, and then be thrown forward. So your seat belt will help avoid additional injuries.
 
  • #6
haruspex said:
Of course you would be thrown forward with and by the car, but then (assuming the brakes are on) the car will quickly decelerate and you may become dependent on your seatbelt to avoid overtaking the dash.

This seems like a super basic question but why would the car decelerate faster?

K^2 said:
Yup, that does happen in a collision like this. It's a little different when masses are different, but it does work. A good demo of the effect is dropping a basketball with a tennis ball on top of it. The impact with ground makes the tennis ball shoot way out higher than the point you dropped both from. With a little bit of imagination, I hope you can see how this is similar to a rear end collision.

So yes. When rear ended, you will first hit the seat, and then be thrown forward. So your seat belt will help avoid additional injuries.

So would the 'thrown forward' part be due to the push on you from the seat and then your body continuing forward or form the conservation of momentum thing? Or both?
 
  • #7
autodidude said:
So would the 'thrown forward' part be due to the push on you from the seat and then your body continuing forward or form the conservation of momentum thing? Or both?
These are just two alternative ways to look at the same situation. Rate of change of momentum is equal to net force. You can look at it as Newton's 3rd requiring your push against the seat to be balanced by seat pushing against you and accelerating you forward, or you can look at an overall momentum and note that it must be conserved. That looks after the 3rd law internally. You'll get same result either way. Difference is, to work out acceleration, you need the time-dependence of the force between you and the seat, and that's generally difficult to obtain. On the other hand, momentum approach just requires you to compare initial and final states, which is pretty straight forward.
 
  • #8
autodidude said:
This seems like a super basic question but why would the car decelerate faster?

It doesn't (unless you go flying out the window), but it does start to decelerate *first*. You don't start to decelerate until something resists your forward momentum, be that the dash or the seatbelt.

You can see camera footage of rear crash testing on youtube.

Here's one as a for example:
 
Last edited by a moderator:
  • #9
K^2 said:
These are just two alternative ways to look at the same situation. Rate of change of momentum is equal to net force. You can look at it as Newton's 3rd requiring your push against the seat to be balanced by seat pushing against you and accelerating you forward, or you can look at an overall momentum and note that it must be conserved. That looks after the 3rd law internally. You'll get same result either way. Difference is, to work out acceleration, you need the time-dependence of the force between you and the seat, and that's generally difficult to obtain. On the other hand, momentum approach just requires you to compare initial and final states, which is pretty straight forward.

Ah ok...I haven't really learned about momentum 'properly' yet so I'll get onto that. Thanks

justsomeguy said:
It doesn't (unless you go flying out the window), but it does start to decelerate *first*. You don't start to decelerate until something resists your forward momentum, be that the dash or the seatbelt.

Is the cause of the deceleration of the vehicle the friction between the road and the tyres? And why would the car decelerate faster if you go flying out the window (assuming that's what you meant)?
 
  • #10
autodidude said:
Is the cause of the deceleration of the vehicle the friction between the road and the tyres?

The friction of the brakes slows the wheels, and their friction with the road slows the car.

autodidude said:
And why would the car decelerate faster if you go flying out the window (assuming that's what you meant)?

It was a joke, but the serious answer is that if you go flying out the window, nothing is acting against your momentum to slow you down. The car decelerates, but you don't.
 

1. What causes a rear-end collision?

A rear-end collision is typically caused by a driver not leaving enough space between their vehicle and the vehicle in front of them, resulting in a sudden stop or slowing down that the following driver is unable to react to in time.

2. What injuries can occur from a rear-end collision?

Injuries from a rear-end collision can range from minor whiplash to more serious injuries such as spinal cord damage, head trauma, and broken bones. The severity of injuries can depend on the speed of the collision and the position of the occupants in the vehicle.

3. Is whiplash the only injury that can occur from being thrown forward in a rear-end collision?

No, whiplash is a common injury in rear-end collisions, but other injuries can also occur. These can include back and neck injuries, head injuries, and chest injuries from seatbelt impact.

4. What should I do if I am involved in a rear-end collision?

If you are involved in a rear-end collision, the first thing to do is to check yourself and any passengers for injuries. If anyone is injured, call for medical assistance immediately. Then, exchange insurance and contact information with the other driver and take photos of the damage to both vehicles. It is also important to document the scene and any injuries for insurance and legal purposes.

5. Can I file a personal injury claim for a rear-end collision?

Yes, if you have been injured in a rear-end collision, you may be able to file a personal injury claim against the at-fault driver. It is important to seek medical attention and gather evidence to support your claim, such as medical records, photos, and witness statements. Consulting with a personal injury lawyer can also help you navigate the legal process and receive proper compensation for your injuries and damages.

Similar threads

Three Car Collision - Can physics help clarify twin impact?
    • Mechanics
Replies
3
Views
15K
I Question about transfer of Energy and Momentum in Ballistics
    • Mechanics
Replies
34
Views
2K
Help with question on motion: Avoiding a rear-end collision
    • Introductory Physics Homework Help
Replies
6
Views
692
Solving Car Collision: Velocity Impact of 40cm Rear End Impact
    • Mechanics
Replies
17
Views
2K
B How is efficiency defined in rocket propulsion?
    • Classical Physics
Replies
12
Views
1K
Can anyone estimate the speed of a vehicle in a car accident without skid marks?
    • Mechanics
Replies
4
Views
1K
Sandy Hill Plunge: A Lifted Bronco's Free-Fall
    • Sci-Fi Writing and World Building
Replies
20
Views
2K
Clueless and in need of help -- I was the rear car of a 4 car collision
    • Mechanics
Replies
4
Views
1K
Optimal Size of Rocket Engine Nozzle for Vacuum Performance
    • Mechanics
Replies
26
Views
1K
B Confusion while trying to build intuition of centripetal force
    • Mechanics
Replies
15
Views
2K

Hot Threads

Recent Insights

Back
Top