Collisions (Linear Momentum Conservation) (practice 7-9 Q9)

In summary, when two objects of equal mass collide with equal speeds, their velocities after the collision may be zero, reduced, or unchanged. This is determined by the law of linear momentum conservation and the fact that work cannot increase in a collision.
  • #1
gcombina
157
3

Homework Statement


Two objects of equal mass traveling toward each other with equal speeds undergo a head on collision. Which one of the following statements concerning their velocities after the collision is necessarily true?

(a) They will exchange velocities. (d) Their velocities will be zero.

(b) Their velocities will be reduced. (e) Their velocities may be zero.

(c) Their velocities will be unchanged.

Homework Equations


Law of linear momentum conservation

The Attempt at a Solution


*This is a one system, no external forces
*Linear momentum conservation applies

(a) I don't know, can you help me on this one?
(b) Yes
(c) mmmm I don't know
(d) No
(e) No, the velocities were not zero at the beginning so they won't be zero after the collision either. Mass and velocity will be conserved
 
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  • #2
i know the answer is e but I don't know why
 
  • #3
You mention momentum conservation but don't use it. Another law you can use is that work cannot increase - some may be lost to heat etc., or it may stay the same in a perfectly elastic collision, but it won't increase.
Make up some unknowns for masses and speeds and let's see some equations based on those laws.
 

Related to Collisions (Linear Momentum Conservation) (practice 7-9 Q9)

1. What is meant by linear momentum conservation in collisions?

Linear momentum conservation in collisions refers to the principle that the total linear momentum of a closed system remains constant before and after a collision. This means that the total mass times velocity of all objects involved in the collision will be the same before and after the collision occurs.

2. How is linear momentum conserved in collisions?

Linear momentum is conserved in collisions because, according to Newton's third law of motion, for every action, there is an equal and opposite reaction. This means that the total momentum of the objects involved in the collision will remain the same before and after the collision, as long as no external forces are acting on the system.

3. What factors affect the conservation of linear momentum in collisions?

The conservation of linear momentum in collisions can be affected by the mass and velocity of the objects involved. If the objects have different masses or velocities, the resulting momentum after the collision will depend on their initial values. Additionally, external forces such as friction or air resistance can also affect the conservation of linear momentum.

4. How is the conservation of linear momentum applied in real-life situations?

The conservation of linear momentum is applied in many real-life situations, such as car accidents, sports collisions, and rocket launches. In these scenarios, the total momentum of the objects involved is conserved, allowing scientists and engineers to predict the outcomes of collisions and design safer and more efficient systems.

5. Can linear momentum be conserved in an inelastic collision?

Yes, linear momentum can still be conserved in an inelastic collision. In an inelastic collision, some of the kinetic energy is lost, but the total momentum of the system remains the same. This is because the objects involved in the collision may stick together or deform, but their total mass and velocity will still be the same before and after the collision.

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