Elastic vs Inelastic Collision: Mass & Kinetic Energy

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Homework Help Overview

The discussion revolves around the concepts of elastic and inelastic collisions, particularly focusing on scenarios involving cars of equal mass and their behavior during collisions. Participants explore the implications of mass on collision outcomes and the conservation of kinetic energy and momentum.

Discussion Character

  • Conceptual clarification, Assumption checking, Problem interpretation

Approaches and Questions Raised

  • Participants question whether collisions between objects of equal mass are always elastic and discuss the implications of kinetic energy conservation in car collisions. There are inquiries about specific scenarios, such as head-on collisions and rear-end collisions, and whether damage occurs in elastic versus inelastic collisions.

Discussion Status

The discussion is active with various participants providing insights and questioning assumptions about the nature of collisions. Some participants suggest that most car collisions are inelastic, while others clarify misconceptions about momentum conservation and kinetic energy loss. There is a recognition of the complexity involved in analyzing collision outcomes.

Contextual Notes

Participants note that real-world collisions are typically not perfectly elastic and that safety designs in cars contribute to inelastic behavior. There is also mention of specific conditions, such as the role of brakes and the effects of different speeds on collision outcomes.

KurtWagner
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say I have two objects of the same mass. Is the collision always going to be elastic?
mv + mv = mv + mv

the masses cancel out and thus kinetic energy is conserved right?

does this mean that for two cars with exactly the same mass the collision is going to be elastic?

if so, would there be any damage to the cars? as the there is no change in kinetic energy then there is no energy to crumble the car body right?
 
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like for example when a moving car hits a resting car.
 
KurtWagner said:
say I have two objects of the same mass. Is the collision always going to be elastic?

Whether a collision is elastic or not has nothing to do with the masses.


does this mean that for two cars with exactly the same mass the collision is going to be elastic?

if so, would there be any damage to the cars? as the there is no change in kinetic energy then there is no energy to crumble the car body right?

Imagine a head on collision at 100km/hr between:
A) two 1000kg vehicles
B) one 500kg and one 1500kg vehicle

Does it make any sense to think the cars in case A) will be undamaged and the cars in case B) will be damaged?

In the real world there are no perfectly elastic collisions. Some collisions can be closely approximated as elastic but a car crash is definitely not one of them.
 
how about a rear ender between two cars of equal mass on ice.

first car is 10m/s second is at rest. after the collision the velocities are conserved right?
 
No, cars are specifically designed to be inelastic in collisions for safety reasons.

Collisions between Billiard balls are close to elastic.
 
No, same mass does not imply elastic collision. The collision between two cars is typically quite inelastic.

Edit: Maybe I should stop opening several tabs and answering when I get to them without checking if it was already answered ... :)
 
so how do you use the conservation of momentum for two cars of equal masses where the collision is inelastic.

why does the differences in speeds not break the conservation of momentum
 
Conservation of momentum is one equation but you have two variables (the post-collision velocities of each car). As such, it does not uniquely determine the velocities and you need more input, such as the total kinetic energy being conserved (elastic) or the velocities being equal after collision (fully inelastic).
 
am i right in assuming that most car collisions are completely inelastic?
 
  • #10
or should i say. most car collisions where the breaks are engaged in both cats
 
  • #11
*cars
 
  • #12
"brakes", not "breaks".
 
  • #13
thanks for that :p
 
  • #14
KurtWagner said:
am i right in assuming that most car collisions are completely inelastic?
Any car collision more than a nudge is mostly inelastic.
 
  • #15
KurtWagner said:
or should i say. most car collisions where the breaks are engaged in both cats

The brakes have nothing to do with it. Prior deceleration, like mass, has nothing to do with whether a collision is elastic or not.
 
  • #16
so this brings me back to my misunderstanding involving the conservation of momentum.

for example a moving car hitting a stationary one.

initial
car a: 1000kg 10m/s
car b: 1000kg 0m/s

final
car a: ?
car b: 5m/susing the conservation of momentum on this would leave car a going 5m/s right?

kinetic energy is conserved right?

what am I doing wrong?
 
  • #17
KurtWagner said:
initial
car a: 1000kg 10m/s
car b: 1000kg 0m/s

final
car a: ?
car b: 5m/susing the conservation of momentum on this would leave car a going 5m/s right?

kinetic energy is conserved right?

Kinetic energy is not conserved in this case.
The initial KE was [itex]\frac{1}{2}10^2M=50,000[/itex] Joules.
Whereas the final KE was [itex]\frac{1}{2}5^2M+\frac{1}{2}5^2M=25,000[/itex] Joules.

Kinetic Energy was lost (50% of it).

...

When two objects collide, there are infinite possible combinations of final velocities that will satisfy conservation of momentum.
Many of these possible solutions violate conservation of energy (because energy comes from nowhere)
Some of these possible solutions result in a decreased amount of kinetic energy (so-called "inelastic collions")

But there is only 1 solution of conservation of momentum which leaves the kinetic energy unchanged.
This sitatuion is referred to as an "elastic collision"

...

In your example, the "elastic solution" would be [itex]a_{final}=0[/itex] and [itex]b_{final}=10\frac{m}{s}[/itex]
 
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  • #18
HA!

Thank you. I did not realize. The square of the velocity!

That is exactly what I was missing.

5^2 plus 5^2 is not the same as 10^2. Lol
 

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