Which Scenario Best Reflects a Conservation of Momentum Graph?

In summary, the graph shows the change in the velocity of an object with time in a situation in which momentum is conserved. The situation most likely indicated by the graph is the velocity of a bullet striking a ballistic pendulum.
  • #1
jeremy smith
3
0
Need desperate help! Velocity!

The graph shows the change in the velocity of an object with time in a situation in which momentum is conserved. which of the following situations is most likely indicated by the graph. explain why or why not the situations is or is not the best choice..



Hint: think about conservation of linear momentum and conservation of energy to solve the problem.


A) The velocity of a bullet striking a ballistic pendulum

B) The velocity of a car colliding head on with another car of equal weight and velocity

C) The velocity of a fixed stationary object being hit by a bullet

D) The velocity of a swinging pendulum

E) A ball rolling across a level floor
 
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  • #2


I'd first cancel out E and D because the question of momentum does not apply...Do you see?I'd also cancel out C,because the object is?Fixed!Its velocity doesn't change and if it does then they would have been irregular energy losses,same applies to B in which we are not so sure the car will bounce back well off the crash,it hasnt been said it is a perfectly elastic collision so practically there would significant energy loss due to heating and friction..That means we remain with A which by me would my choice of the graph!Why do you think so?
 
  • #3


is it because before the bullet strikes the pendulum the bullet can be assumed to be traveling with constant velocity and after the bullet hits the pendulum there is a huge decrease in velocity because the pendulum is heavy and the change is exponential because the the bullet transfers its energy to the pendulum-bullet system and so it starts oscillating with a small velocity because it's very heavy.
 
  • #4


jeremy smith said:
is it because before the bullet strikes the pendulum the bullet can be assumed to be traveling with constant velocity and after the bullet hits the pendulum there is a huge decrease in velocity because the pendulum is heavy and the change is exponential because the the bullet transfers its energy to the pendulum-bullet system and so it starts oscillating with a small velocity because it's very heavy.

Sort of...But more so because in most of these cases (ballistic pendulum) conserve both linear momentum and kinetic energy...which was a condition you were required to fulfill in the question!
 
  • #5


jeremy smith said:
The graph shows the change in the velocity of an object with time in a situation in which momentum is conserved. which of the following situations is most likely indicated by the graph. explain why or why not the situations is or is not the best choice..
Without seeing the actual graph, we cannot offer intelligent advice.

Post the graph and give us your selection and the reasoning behind it.
 

Related to Which Scenario Best Reflects a Conservation of Momentum Graph?

1. What is velocity?

Velocity is a physical quantity that describes the rate of change of an object's position with respect to time. It is a vector quantity, meaning it has both magnitude and direction.

2. How is velocity different from speed?

While both velocity and speed describe how fast an object is moving, velocity also takes into account the direction of motion. Speed is a scalar quantity, only indicating the magnitude of motion.

3. What are the units of velocity?

The units of velocity are typically distance over time, such as meters per second (m/s) or kilometers per hour (km/h). However, depending on the context, it can also be represented as feet per second (ft/s) or miles per hour (mph).

4. How is velocity calculated?

Velocity can be calculated by dividing the change in an object's position by the change in time. This is represented by the equation v = Δx/Δt, where v is velocity, Δx is the change in position, and Δt is the change in time.

5. Why is velocity an important concept in science?

Velocity is important in science because it helps us understand and describe the motion of objects. It is used in many different fields, including physics, engineering, and astronomy, to analyze and predict the behavior of moving objects.

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