891.8 newtons.
Your weight exerts a downward force, while the chair exerts an upward force equal in magnitude to your weight.
A force in the opposite direction, and with the same magnitude.
The pressure exerted by a man standing on one leg is twice the pressure he exerts when standing on two legs
on tiptoe, because the force acts over less area
Remember Newton's third law of motion! The object exerts a force that is of equal (the same) magnitude but in the opposite direction to what you applied to it
A rope exerts a force of magnitude 21 N, at an angle 31 deg above the horizontal, on a box at rest on a horizontal floor. The coefficients of friction between the box and floor are Us = 0.55 and UK = 0.50. The box remains at rest. Determine the smallest possible mass of the box. this is the full question thanks for any help! :)
Of exactly the same magnitude but in the opposite direction.
Your weight exerts a downward force, while the chair exerts an upward force equal in magnitude to your weight.
A force in the opposite direction, and with the same magnitude.
The law that when one body exerts force on another, the second body exerts a collinear force on the first equal in magnitude but oppositely directed.
The pressure exerted by a man standing on one leg is twice the pressure he exerts when standing on two legs
on tiptoe, because the force acts over less area
on tiptoe, because the force acts over less area
on tiptoe, because the force acts over less area
Remember Newton's third law of motion! The object exerts a force that is of equal (the same) magnitude but in the opposite direction to what you applied to it
in which situation you exert more force downward, standing or lying horizantilly?
When a first object exerts a force, F1 ,on a second object, the second object simultaneously exerts a force, F2 = −F1 on the first object. This means that F1 and F2 are equal in magnitude and opposite in direction.