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How do bumper cars at an amusement park demonstrate Newton’s third law?(1 point)

Responses

If two bumper cars collide with a certain force, then they will move away from each other in opposite directions with the same force.
If two bumper cars collide with a certain force, then they will move away from each other in opposite directions with the same force.

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.
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.

If two bumper cars collide with a certain force, then they will move away from each other in opposite directions with a stronger force.
If two bumper cars collide with a certain force, then they will move away from each other in opposite directions with a stronger force.

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.

3 answers

The correct response that demonstrates Newton's third law in the context of bumper cars is:

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 is because Newton's third law states that for every action, there is an equal and opposite reaction. When two bumper cars collide, each car exerts a force on the other, and they move away from each other as a result of that force, which is equal in magnitude and opposite in direction.

An octopus propels itself through the water by ejecting water through a funnel in its body. How does this demonstrate Newton’s third law?(1 point)
Responses

When the octopus ejects the water out, the water acts with an equal force on the surrounding water in the same direction.
When the octopus ejects the water out, the water acts with an equal force on the surrounding water in the same direction.

When the octopus ejects the water out, the water acts with an equal force on the octopus in the same direction.
When the octopus ejects the water out, the water acts with an equal force on the octopus in the same direction.

When the octopus ejects the water out, the water acts with an equal force on the octopus in the opposite direction.
When the octopus ejects the water out, the water acts with an equal force on the octopus in the opposite direction.

When the octopus ejects the water out, the water acts with an equal force on the surrounding water in the opposite direction.

The correct response that demonstrates Newton's third law in the context of an octopus propelling itself through water is:

When the octopus ejects the water out, the water acts with an equal force on the octopus in the opposite direction.

This reflects Newton's third law by illustrating that when the octopus exerts a force on the water by pushing it out, the water exerts an equal and opposite force back on the octopus, allowing it to propel itself forward.