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Is it true that when you jump on the ground the Earth exerts a greater force back up on you because it is so massive?
That is false. Please take a look at Newton's Third Law. The opposing force MUST BE of the same magnitude. For example, if you temporarily exert a force of 2000 newton (by jumping, the force will temporarily be greater than your weight), then the opposing force will also be 2000 newton.
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When you jump on the ground the earth exerts a greater force back up on because it is so massive?
The force that you exert on the Earth is equal to the force that the Earth exerts on you; for every action there is an equal and opposite reaction, so says Newton. What is different is the amount of motion that results. You move, and the Earth (apparently) does not. Actually the Earth is moving all the time, in its orbit around the sun and by rotating on its axis, but it does not noticeably move because you jump on the ground. And that is indeed because it is much more massive than you are. False.
What is law of action and reaction examples?
Your feet exert a force on the ground so in return the ground exerts a force on your feet.
How does Newtons 3rd law of motion apply to a horse jumping?
Newton's Third Law states that "for every action, there is an equal and opposite reaction." And so the horse jumps by pushing against the earth in which the earth then pushes an equal and opposite amount of force on the horse which makes it goes up in the air.
What are two pairs of action-reaction forces involving a bucket?
When a person lifts a bucket upward, the person exerts an upward force on the bucket, and the bucket exerts a downward force on the person. When a bucket is pushed along the ground, the person exerts a forward force on the bucket, and the bucket exerts an equal and opposite backward force on the person.
Do your feet exert a compressive force on the ground?
Yes. Of course, the ground exerts an equal-abd-opposite compressive force on you.===========================Answer #2:Experiment:-- Place a raw egg between the ground and your foot.-- What did you observe ? Was there any evidenceof a compressive force anywhere ?
When you jump on the ground the Earth exerts a greater force back up on you because it is so massive.?
The force that you exert on the Earth is equal to the force that the Earth exerts on you; for every action there is an equal and opposite reaction, so says Newton. What is different is the amount of motion that results. You move, and the Earth (apparently) does not. Actually the Earth is moving all the time, in its orbit around the sun and by rotating on its axis, but it does not noticeably move because you jump on the ground. And that is indeed because it is much more massive than you are. False.
When you jump on the ground does the earth exert a greater force back up on you because it is so massive?
yes
When you jump on the ground the earth exerts a greater force back up on because it is so massive?
The force that you exert on the Earth is equal to the force that the Earth exerts on you; for every action there is an equal and opposite reaction, so says Newton. What is different is the amount of motion that results. You move, and the Earth (apparently) does not. Actually the Earth is moving all the time, in its orbit around the sun and by rotating on its axis, but it does not noticeably move because you jump on the ground. And that is indeed because it is much more massive than you are. False.
What Objects all sitting on the ground together does Earth exert a greater gravitational pull than a pencil?
Yes, Earth exerts a greater gravitational pull on objects sitting on the ground together compared to a single pencil. This is because the combined mass of all the objects on the ground is greater than the mass of the pencil, resulting in a stronger gravitational attraction between Earth and the objects.
If a rocket's thrust is greater than it's weight what will happen?
If a rocket exerts a greater downward force than the force with which gravity pulls on, it will accelerate upwards.
A free-falling golf ball strikes the ground and exerts a force on it. Which sentences are true about this situation?
The ball exerts a force on the ground that is equal in magnitude and opposite in direction to the force that the ground exerts on the ball. The force on the ground causes a deformation in the surface, resulting in a corresponding reaction force from the ground on the ball. The impact of the golf ball on the ground demonstrates Newton's third law of motion, which states that for every action, there is an equal and opposite reaction.
Three examples of force pairs that happen when homework is being done?
The hand exerts a force on the pen to write on paper, while the pen exerts an equal but opposite force back on the hand. The book exerts a force on the table due to gravity, while the table exerts an equal but opposite force upwards on the book. The foot exerts a force on the ground to stay balanced while sitting on a chair, and the ground exerts an equal but opposite force upwards on the foot.
A moose weighing 3kN is standing still the force the ground exerts on the moose is?
The force the ground exerts on the moose is equal in magnitude but opposite in direction to the force the moose exerts on the ground. Therefore, the force exerted by the ground on the moose is also 3kN, assuming the moose is not accelerating vertically.
Is the force on the ground that exerts upon us called the normal force?
yes
Which has more inertia hammer or feather?
A hammer would hit the ground first because a hammer is heavier
How does the ground exerts force?
The ground exerts a force on objects due to gravity pulling them towards the Earth's center. This force is called the normal force and acts perpendicular to the surface of the ground to support the weight of the object. Additionally, friction between the object and the ground can also create a force that resists motion.
What is law of action and reaction examples?
Your feet exert a force on the ground so in return the ground exerts a force on your feet.
