Explain how bumper cars are an example of Newton's Third Law of Motion.(1 point) Responses When bumper cars collide, they will both move in the same direction. When bumper cars collide, they will both move in the same direction. When bumper cars collide, they will bounce apart with increased force. When bumper cars collide, they will bounce apart with increased force. When bumper cars collide, they will bounce apart with equal force. When bumper cars collide, they will bounce apart with equal force. When bumper cars collide, one car will transfer its force to the other, and then they will bounce a
When bumper cars collide, they will bounce apart with equal force. This is an example of Newton's Third Law of Motion, which states that for every action, there is an equal and opposite reaction. In this case, when two bumper cars collide, they exert equal and opposite forces on each other, causing them to bounce apart.
part in opposite directions. When bumper cars collide, the force exerted by one car on the other is equal in magnitude but opposite in direction. This is in accordance with Newton's Third Law of Motion, which states that for every action, there is an equal and opposite reaction.
part with equal force.
To understand how bumper cars are an example of Newton's Third Law of Motion, we need to know what this law states. Newton's Third Law of Motion states that for every action, there is an equal and opposite reaction.
In the case of bumper cars, when two cars collide, they exert a force on each other. According to Newton's Third Law, the force exerted by one car on the other is equal in magnitude but opposite in direction to the force exerted by the other car. This means that if one car pushes the other with a certain force, the other car will push back on the first car with an equal force in the opposite direction.
The result of these equal and opposite forces is that the cars will bounce apart. The direction in which they move after the collision depends on the angle and direction of the forces exerted by each car. However, the magnitude of the forces will be equal.
It is important to note that the forces exerted by the bumper cars are not determined solely by their speeds or masses. The forces depend on how the cars collide, the angles at which they collide, and the materials and design of the bumpers. This is why bumper cars are specifically designed to absorb and distribute the forces of collision, providing a safe and fun experience for the riders.