2D Momentum of automobile collision Problem

In summary, to find the final velocity after an inelastic collision between two cars, use the law of conservation of momentum and calculate the respective initial momenta in each axis. Then, use Pythagoras theorem and trigonometry to determine the overall final speed and direction of motion. The final velocity can be expressed as "The final velocity is --- km/h at an angle of --- South of East."
  • #1
xChee
15
0
Need help with two 2D momentum questions.

Q1: Two automobiles collide at an intersection. One car of mass 1.4x103 kg is traveling at 45km/h [south]; the other car of mass 1.3x103 ks is traveling at 39 km/h [east]. If the cars have a completely inelastic collision, what is their velocity after the collision.

- I started off by converting the units of the velocities to m/s but have no clue what to do after :/
 
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  • #2
Because there are no external forces, the law of conservation of momentum tells us that the total momentum before the collision is equal to the total momentum after. I would calculate this momentum and then use it to find the requested velocity.
 
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  • #3
xChee said:
Need help with two 2D momentum questions.

Q1: Two automobiles collide at an intersection. One car of mass 1.4x103 kg is traveling at 45km/h [south]; the other car of mass 1.3x103 ks is traveling at 39 km/h [east]. If the cars have a completely inelastic collision, what is their velocity after the collision.

- I started off by converting the units of the velocities to m/s but have no clue what to do after :/

There is no need to convert to m/s, you can stick to km/hr if you remain consistent throughout. Just ensure that your momentum units are kg.km/h.

Start by defining 2 axes at right angles - horizontal (West-East) and vertical (North-South).

Use the principle of conservation of linear momentum independently in each axis. Final momentum = initial momentum.

Calculate the respective initial momenta in each axis. This is equal to the final momentum in the respective axis.

Calculate the respective velocity in each axis. Remember the "new mass" is the sum of the original masses since this is an inelastic collision (the cars move as one congealed mass of metal).

Now use Pythagoras theorem to calculate the overall final speed (the magnitude). Use trigonometry to find an angle (e.g. θ "South of East") to describe the direction of motion.

Write down the answer as: "The final velocity is --- km/h at an angle of --- South of East."
 

1. What is the definition of momentum in a 2D automobile collision?

In physics, momentum is defined as the product of an object's mass and velocity. In a 2D automobile collision, momentum refers to the quantity of motion of the vehicles involved in the collision in two directions, typically horizontal and vertical.

2. How is 2D momentum conserved in an automobile collision?

According to the law of conservation of momentum, the total momentum of a closed system remains constant. In a 2D automobile collision, the total momentum of the vehicles before and after the collision must be equal, as long as there are no external forces acting on the system.

3. What factors affect the 2D momentum of an automobile collision?

The 2D momentum of an automobile collision can be affected by several factors, including the masses and velocities of the vehicles, the angle of collision, and the coefficient of restitution (a measure of how much kinetic energy is lost during the collision).

4. How is the direction of 2D momentum determined in an automobile collision?

The direction of 2D momentum in an automobile collision is determined by the vector sum of the individual momenta of the vehicles involved. This can be calculated using the momentum equation, p = mv, where p is momentum, m is mass, and v is velocity.

5. How is the concept of 2D momentum applied in real-life automobile collisions?

The concept of 2D momentum is applied in real-life automobile collisions to determine the forces and velocities involved in the collision. This information can then be used to design safer vehicles and improve safety measures on the roads.

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