The floor is a stationary object (in relationship to you). The floor will provide only enough force to match the force of gravity holding you down. It has to be equal.
The same way you "beat the pull of gravity" to move yourself from the first floor up to the second floor. You exert an upward force on your body greater than the force that attracts the earth and your body toward each other, and the result is that they separate. This can be accomplished using an escalator, elevator, winch- line, staircase and leg muscles, etc.
They exert Gravitational Force on each other. It is a force which is directly proportional to Mass of the object
When you jump, you exert a force greater than the force of gravity to achieve a net positive upward acceleration - at least until your feet leave the ground and you quit exerting force. The net upward force is Fnet = (force you push off with) - (force of gravity) Because the moon has less mass than the earth, the force of gravity is less. As a result, the force you exert to jump on earth would give a higher net upward acceleration on the moon and allow you jump higher.
False. The sun does exert a gravitational force on the moon.
Phobos
Yes
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.
no gravity prett much does the trick, forcing you down to the floor and since I never saw a floor float up when a load was taken off, I will stick with no & gravity
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.
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.
bouyant force
Buoyant force.
Buoyant force.
"buoyancy"
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"
opposite and equal force against you.
Friction. You need friction to be able to exert a force against the floor, so that you can balance yourself and move in the direction you want to move.