An octopus moves through water by ejecting water through a funnel in its body. How does this illustrate Newton's Third Law?(1 point)
Responses
When the octopus eject the water out, the water applies an equal force on the surrounding water in the same direction.
When the octopus eject the water out, the water applies an equal force on the surrounding water in the same direction.
When the octopus ejects the water out, the water applies an equal force on the octopus in the opposite direction.
When the octopus ejects the water out, the water applies an equal force on the octopus in the opposite direction.
What the octopus ejects the water out, the water applies an equal force on the octopus in the same direction.
What the octopus ejects the water out, the water applies an equal force on the octopus in the same direction.
When the octopus ejects the water out, the water applies an equal force on the surrounding water in the opposite direction.
When the octopus ejects the water out, the water applies an equal force on the surrounding water in the opposite direction.
The correct answer is: When the octopus ejects the water out, the water applies an equal force on the octopus in the opposite direction. This illustrates Newton's Third Law, which states that for every action, there is an equal and opposite reaction.
The correct answer is: When the octopus ejects the water out, the water applies an equal force on the octopus in the opposite direction.
Explanation:
This situation illustrates Newton's Third Law, which states that for every action, there is an equal and opposite reaction. When the octopus uses its funnel to eject water, it exerts a force on the water in one direction. According to Newton's Third Law, the water exerts an equal and opposite force on the octopus in the opposite direction. This is how the octopus is able to move through the water by pushing water backward.