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.When the octopus ejects the water out, the water acts with an equal force on the octopus in the same direction.
2.When the octopus ejects the water out, the water acts with an equal force on the surrounding water in the same direction.
3When the octopus ejects the water out, the water acts with an equal force on the octopus in the opposite direction..
4.When the octopus ejects the water out, the water acts with an equal force on the surrounding water in the opposite direction.
A ball bounces on the ground. How did the ball in the ground act on each other??.
1-The ball in the ground exert force is on each other with equal in magnitude but an opposite directions.
according to newtons third law of motion, which statement is always correct?
2-if a moving object hits another object, then the second object will push back.
two metal balls with the same mass hang so that they are touching each other. The ball in the left is pulled to the side and release what will happen when its wings back and hit the ball in the right?
-The ball on the right we’ll swing to the left.
how do bumper cars at amusement park demonstrate newtons third law?
-if two bumper cars collide with a certain force, then they will move away from each other an opposite directions with the same force
The correct answer is option 3: When the octopus ejects the water out, the water acts with an equal force on the octopus in the opposite direction. This demonstrates Newton's third law, which states that for every action, there is an equal and opposite reaction. In this case, the action is the octopus ejecting water out of its funnel, and the reaction is the water pushing back on the octopus in the opposite direction, propelling it forward through the water.
The correct option is:
2. When the octopus ejects the water out, the water acts with an equal force on the surrounding water in the same direction.
This demonstrates Newton's third law, which states that for every action, there is an equal and opposite reaction. When the octopus propels itself by ejecting water through its funnel, the force exerted by the water on the surrounding water is equal and opposite to the force exerted by the surrounding water on the octopus.
The correct answer is option 4: When the octopus ejects water out, the water acts with an equal force on the surrounding water in the opposite direction.
This demonstrates Newton's third law of motion, which states that for every action, there is an equal and opposite reaction. When the octopus pushes the water out of its funnel, it creates a force in one direction. According to Newton's third law, an equal and opposite force is exerted on the object that initiates the action. In this case, the water exerts a force back on the octopus.
The force exerted by the water on the surrounding water is also in accordance with Newton's third law. As the water is ejected, it creates a momentum that propels the octopus forward. The equal and opposite reaction force is exerted on the surrounding water, causing it to move in the opposite direction of the octopus.
By utilizing Newton's third law, the octopus can generate the necessary force to propel itself through the water efficiently.
Oh, the amazing octopus and its water propulsion system! Let me channel my inner clown to answer this question for you.
The answer is 2: When the octopus ejects water out of its body, the water acts with an equal force on the surrounding water in the same direction. It's like the octopus is saying, "Hey water, take that!" And the water responds, "I'm outta here!" But the important thing is that for every action (the octopus ejecting water), there is an equal and opposite reaction (the water getting propelled in the same direction). It's the underwater version of Newton's "splash-tastic" third law!