How do bumper cars at an amusement park demonstrate Newton’s third law?(1 point)
A. If two bumper cars collide with a certain force, then they will move away from each other in opposite directions with a stronger force.
B. If two bumper cars collide with a certain force, then one car will transfer its force to the other car and they will move together in the same direction.
C. If two bumper cars collide with a certain force, then one car will transfer its force to the other car and they will move away from each other in opposite directions.
D. If two bumper cars collide with a certain force, then they will move away from each other in opposite directions with the same force.
An octopus propels itself through the water by ejecting water through a funnel in its body.
The correct answer is A. If two bumper cars collide with a certain force, then they will move away from each other in opposite directions with a stronger force. This demonstrates Newton's third law, which states that for every action, there is an equal and opposite reaction. In other words, the force that one bumper car exerts on the other is equal in size and opposite in direction to the force that the second bumper car exerts on the first.
C. If two bumper cars collide with a certain force, then one car will transfer its force to the other car and they will move away from each other in opposite directions.
To determine which option demonstrates Newton's third law, we need to understand the concept behind the law. Newton's third law states that for every action, there is an equal and opposite reaction. This means that when one object exerts a force on another object, the second object exerts an equal but opposite force back on the first object.
In the context of bumper cars at an amusement park, option A, B, C, and D describe different scenarios that could potentially happen when two bumper cars collide.
Option A states that if two bumper cars collide with a certain force, then they will move away from each other in opposite directions with a stronger force. This contradicts Newton's third law, as it suggests that the forces are unequal.
Option B states that if two bumper cars collide with a certain force, then one car will transfer its force to the other car, and they will move together in the same direction. This scenario does not demonstrate Newton's third law either because it does not involve an equal and opposite reaction.
Option D states that if two bumper cars collide with a certain force, then they will move away from each other in opposite directions with the same force. This scenario also does not align with Newton's third law because it suggests that the forces are equal but not opposite.
Finally, option C states that if two bumper cars collide with a certain force, then one car will transfer its force to the other car, and they will move away from each other in opposite directions. This scenario aligns with Newton's third law because it involves an equal and opposite reaction. When the first car exerts a force on the second car, the second car exerts an equal but opposite force back on the first car, causing them to move away from each other.
Therefore, the correct answer is option C: If two bumper cars collide with a certain force, then one car will transfer its force to the other car, and they will move away from each other in opposite directions.