Forces and Acceleration of Bumper Cars After Collision

In summary, the collision between Katie's car and Sam's car results in the two cars coming to a stop. The direction of the force exerted on Katie's car is the opposite of the direction of the force exerted on Sam's car. The magnitude of the force exerted on Katie's car is greater than the magnitude of the force exerted on Sam's car.
  • #1
Blink691
17
0
Katie, who is traveling southward in her bumper car, aims her car toward Sam, who is traveling northward in his bumper car. The cars collide and briefly come to a stop.


What is the direction of the force exerted on Katie's car during the collision?


What can you say about the magnitude of the force that Katies's car exerts on Sam's car versus the magnitude of the force that Sam's car exerts on Katie's car?


What is the direction of the acceleration of Katie's car during the collision?

thanks!
 
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  • #2
What have you done on this? It's hard to offer comments or hints without knowing what you understand about these problems.
 
  • #3
Blink691 said:
Katie, who is traveling southward in her bumper car, aims her car toward Sam, who is traveling northward in his bumper car. The cars collide and briefly come to a stop.


What is the direction of the force exerted on Katie's car during the collision?


What can you say about the magnitude of the force that Katies's car exerts on Sam's car versus the magnitude of the force that Sam's car exerts on Katie's car?


What is the direction of the acceleration of Katie's car during the collision?

thanks!

Well, both cars collide headon with each other, and completely stop moving straight after the collision.

The force needed to stop Katies car will be in the opposite direction of motion, so since she is moving southwards, the force on the car must be northwards.

When working with forces, which are vectors, you have to take their direction into account. So if two forces opposed each other (the collision), one force must be positive, and the other must be negative.
They said that the two cars stop moving after the collions, therefore the forces that the cars exert on each other must be the same but in opposite directions (e.g. the resultant force will be 0 because the cars stop moving).

Katies car collides headon with Sams car, so Katie car must be accelerating in the opposite direction of the intitial motion (e.g. she is decellerating).

Hope that helped, forgive me if I am wrong.
 
  • #4
Thank you to those who replied... its greatly appreciated!
 

1. How do bumper cars move and what causes them to accelerate?

Bumper cars move and accelerate through the application of forces. The cars are equipped with electric motors that power the wheels, and the operator can control the direction and speed of the car by using a steering wheel and accelerator pedal. When the car collides with another car or object, the force of the impact causes the car to accelerate in the opposite direction.

2. What forces are involved in a collision between two bumper cars?

There are two main forces involved in a collision between two bumper cars: the force of impact and the force of friction. The force of impact is the initial force that occurs when the cars collide, and it is responsible for causing the cars to accelerate in opposite directions. The force of friction, on the other hand, acts to slow down or stop the cars after the collision.

3. How is acceleration calculated in a bumper car collision?

Acceleration in a bumper car collision can be calculated using the formula A = (Vf - Vi)/ t, where A is the acceleration, Vf is the final velocity, Vi is the initial velocity, and t is the time it takes for the cars to collide. This formula takes into account the change in velocity and the time it takes for the collision to occur.

4. What factors can affect the forces and acceleration of bumper cars after a collision?

There are several factors that can affect the forces and acceleration of bumper cars after a collision. These include the speed and direction of the cars prior to the collision, the weight and size of the cars, the angle and location of impact, and the surface on which the cars are operating. Additionally, the design and construction of the bumper cars can also impact the forces involved in a collision.

5. How do scientists study and measure the forces and acceleration of bumper cars after a collision?

Scientists can study and measure the forces and acceleration of bumper cars after a collision through various methods such as video analysis, computer simulations, and physical experiments. They can also use sensors and data collection systems to gather data on the speed, direction, and impact forces of the cars during a collision. By analyzing this data, scientists can better understand the physics behind bumper car collisions and make improvements to the design and safety of these popular amusement park rides.

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