When you stand on a floor, the force that you exert on the floor because of your weight is equal to the force with which the floor supports your weight.
Because your feet are not accelerating, the force exerted by the floor upon your feet must be exactly the same as the force exerted by your feet on the floor. If you are standing, the amount of force exerted by your feet, and thus the amount of force exerted by the floor, is equivalent to your weight.
Yes, the force exerted by the floor on our feet is equal to the force that our feet exerted on the floor, or it just depends on your weight, If you are heavier than the normal. When you stand, the longer the time you stand, the more pain you feel on your feet. And we can't be move upward by the force that the floor exerted on our feet because of the force of our weight that keeps us on the ground, and also because of gravity.
The floor exerts an upward force of 200N on the woman, which is equal in magnitude to her weight to keep her stationary. This force is known as the normal force, which acts in the opposite direction to the force of gravity.
Yes, the floor exerts an upward force on your feet in response to the gravitational force pulling you down. This force is known as the normal force and it helps to support your weight and keep you from falling through the floor.
To keep the crate moving with constant velocity, the force you exert must balance the force of sliding friction. In this case, you must exert a force of 90 N in the opposite direction of the sliding friction, so the net force on the crate is zero and it remains in motion at a constant velocity.
Yes, when standing on a floor, the floor exerts an upward force on your feet equal to the force of gravity acting on your body. This force prevents you from sinking through the floor or falling. You are not moved upward by this force because your body weight is equal and opposite to the force exerted by the floor, resulting in equilibrium.
Because your feet are not accelerating, the force exerted by the floor upon your feet must be exactly the same as the force exerted by your feet on the floor. If you are standing, the amount of force exerted by your feet, and thus the amount of force exerted by the floor, is equivalent to your weight.
Yes, the force exerted by the floor on our feet is equal to the force that our feet exerted on the floor, or it just depends on your weight, If you are heavier than the normal. When you stand, the longer the time you stand, the more pain you feel on your feet. And we can't be move upward by the force that the floor exerted on our feet because of the force of our weight that keeps us on the ground, and also because of gravity.
If the floor is on Earth, then the weight of 110.0 kg of mass is 1078.8 newtons. (rounded)
The floor exerts an upward force of 200N on the woman, which is equal in magnitude to her weight to keep her stationary. This force is known as the normal force, which acts in the opposite direction to the force of gravity.
Yes, the floor exerts an upward force on your feet in response to the gravitational force pulling you down. This force is known as the normal force and it helps to support your weight and keep you from falling through the floor.
To keep the crate moving with constant velocity, the force you exert must balance the force of sliding friction. In this case, you must exert a force of 90 N in the opposite direction of the sliding friction, so the net force on the crate is zero and it remains in motion at a constant velocity.
The floor must exert a force equal to that of the force exerted on the desk from gravity. This force is called a "normal force"
Yes, according to Newton's third law of motion, the floor exerts an equal and opposite force against your feet when you stand on it. This upward force is what supports your weight and prevents you from falling.
How much force you can exert at one time.
The force would be the weight of the object.
The force is called normal force. It is a reactionary force exerted by a surface to support the weight of an object resting on it. In the context of standing on a floor, the normal force from the floor acts in the upward direction to balance the downward force due to gravity acting on the person.