Well, according to Newton's third law, every action has an equal and opposite reaction, so the ground would exert 3000 Newtons back on the moose.
When standing on the ground, the Earth exerts a force equal to your weight in the downward direction (gravitational force) and you exert an equal force in the upward direction on the Earth (reaction force) as per Newton's Third Law of Motion.
The force exerted by a person on the ground is the same whether they are standing up or laying down, as it is determined by their weight. The only difference is the distribution and contact area of the force between the feet when standing versus the whole body when laying down.
The woman in high heels exerts more pressure on the ground because the pressure exerted is force divided by area; the smaller contact area of the heels concentrates the force, resulting in higher pressure. So, a 500N woman standing in 0.005m high heels exerts more pressure than a 500N woman standing in 0.05m work boots.
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.
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.
in which situation you exert more force downward, standing or lying horizantilly?
Yes, a pile of soil sitting on the ground exerts force on the ground beneath it. The soil has mass, and gravity pulls it down on the whatever is under it. A red ant standing atop the pile of soil exerts an extra force on it, to continue the figure.
When standing on the ground, the Earth exerts a force equal to your weight in the downward direction (gravitational force) and you exert an equal force in the upward direction on the Earth (reaction force) as per Newton's Third Law of Motion.
The force exerted by a person on the ground is the same whether they are standing up or laying down, as it is determined by their weight. The only difference is the distribution and contact area of the force between the feet when standing versus the whole body when laying down.
The woman in high heels exerts more pressure on the ground because the pressure exerted is force divided by area; the smaller contact area of the heels concentrates the force, resulting in higher pressure. So, a 500N woman standing in 0.005m high heels exerts more pressure than a 500N woman standing in 0.05m work boots.
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.
yes
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.
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.
Your feet exert a force on the ground so in return the ground exerts a force on your feet.
on tiptoe, because the force acts over less area
The reaction force is equal in magnitude and opposite in direction to the force your foot exerts on the ground. This reaction force is what allows you to push off the ground and move forward.