The pushing force exerted by physical human effort against the wall is not enough! If the pushing force becomes greater than the weight of the wall held down by the earth's gravity, then the wall will topple. A mechanical digger is able to exert a greater side force then a human, and will topple (demolish) the wall.
If you push on a wall with a force of 10 N, the wall will push back on you with an equal force of 10 N in the opposite direction, according to Newton's third law of motion. The wall will not move or be damaged, as long as the force does not exceed the wall's structural integrity.
Because of Newton's 3rd law, if you push on a wall with, let's say, 10 N, the wall will, by definition of the law, push back on you with 10N. The forces are balanced and you don't move backwards because the forces "cancel out" because they are equal and opposite, and if Fnet=0, we now acceleration must be 0.
When you push against a brick wall, the wall exerts an equal and opposite force back on you, as per Newton's third law of motion. The wall does not move because it has a much greater mass and inertia compared to you. Your effort is mostly expended on compressing your own muscles and joints, leading to fatigue.
The wall stays standing because of the counterforce exerted by the ground in the form of friction and compression. This force reacts to the person's push, preventing the wall from tipping over. Additionally, the wall's weight and construction provide stability against the force applied by the individual.
According to Newton's third law, the wall will push back against you with an equal force in the opposite direction.
If you push on a wall with a force of 10 N, the wall will push back on you with an equal force of 10 N in the opposite direction, according to Newton's third law of motion. The wall will not move or be damaged, as long as the force does not exceed the wall's structural integrity.
friction forces
because objects move when proper force is acted upon them which works on moving and changing these objects direction.
Because of Newton's 3rd law, if you push on a wall with, let's say, 10 N, the wall will, by definition of the law, push back on you with 10N. The forces are balanced and you don't move backwards because the forces "cancel out" because they are equal and opposite, and if Fnet=0, we now acceleration must be 0.
I don't think dat u can push another player if that's what you mean but if you can push something (a trashcan or wall) then walk up 2 it and push in the direction that u want 2 move it :)
For example : when we push a wall it doesn't move anywhere I think you don't know the equation for work Work =force* distance For something to work it should move too then there is no work done In the example we push the wall yet it doesn't move to a distance So no work done
muscle that push hard to wall
In most video games there are walls that cannot be pushed down. Regardless of how strong you are. Try pushing in a different section of the wall and it may move.
When you push against a brick wall, the wall exerts an equal and opposite force back on you, as per Newton's third law of motion. The wall does not move because it has a much greater mass and inertia compared to you. Your effort is mostly expended on compressing your own muscles and joints, leading to fatigue.
The wall stays standing because of the counterforce exerted by the ground in the form of friction and compression. This force reacts to the person's push, preventing the wall from tipping over. Additionally, the wall's weight and construction provide stability against the force applied by the individual.
According to Newton's third law, the wall will push back against you with an equal force in the opposite direction.
It's a push