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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.
a force of depend on mass
In orbit your weight is zero.
alot
Depends on the weight, build, and amount of muscle a person has. For example, Brock Lesner can exert 3,000 pounds of pressure just from grounding pounding person while he's mounted them.
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.
a force of depend on mass
The force would be the weight of the object.
How much force you can exert at one time.
The force that a human body can exert on a surfboard is its weight. Weight is the gravitational force acting on a body's mass, and is determined by multiplying the acceleration due to gravity (g), 9.81m/s2, times the person's mass in kilograms. The unit for weight is the Newton (N). For example, if a person has a mass of 75.5kg, his weight in Newtons will be 75.5kg x 9.81m/s2 = 741N.
As much as is available. That of course does not mean the paper can withstand it.
In orbit your weight is zero.
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.
Not that much actually.
Your mass is how much matter you are made up of. Your weight is how much force you exert on your surroundings. If the force of gravity is greater or weaker, then your constant mass will exert more, or less force on the surroundings, ie, your weight will be different.
alot
Depends on the weight, build, and amount of muscle a person has. For example, Brock Lesner can exert 3,000 pounds of pressure just from grounding pounding person while he's mounted them.