How do bumper cars at an amusement park demonstrate Newton's third law?
a If two bumper cars collide with a certain force, then they will move away from each other in opposite directions with the same force.
b If two bumper cars collide with a certain force, then they will move away from each other in opposite directions with a stronger force.
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 together in the same direction.
d 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 one car will transfer its force to the other car and they will move away from each other in opposite directions. This demonstrates Newton's third law, which states that for every action, there is an equal and opposite reaction.
d 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 demonstrates Newton's third law of motion, which states that for every action, there is an equal and opposite reaction. In the case of bumper cars, when one car collides with another, it exerts a force on the second car. As a result, the second car experiences an equal and opposite force, causing it to move away from the first car in the opposite direction. This shows the principle of action-reaction in action and is a clear demonstration of Newton's third law.
The correct answer is d) 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.
Explanation:
Newton's third law of motion states that for every action, there is an equal and opposite reaction. In the case of bumper cars at an amusement park, when two cars collide, they exert equal and opposite forces on each other.
When the first bumper car collides with the second car, it exerts a force on the second car. According to Newton's third law, the second car also exerts an equal and opposite force on the first car.
These equal and opposite forces result in the bumper cars moving away from each other in opposite directions. The force exerted by one car transfers to the other car, causing them to move apart.
This action and reaction force between the two bumper cars exemplifies Newton's third law of motion.