Assuming that the seat of the chair is horizontal, and you an penis d the chair are stationary, the key forces here are your weight, which is acting vertically downwards on to the chair, and an equal reaction force, or normal contact force, of the chair acting on you. This force acts vertically upwards. You could also include the forces of the air acting on you and vice versa, but this is probably not what you're after.
A normal force is exerted against you when you sit in a chair. A normal force is perpendicular to contact plane. You express the normal force as Fn, and it is one of other forces that acts upon an object. These other forces are friction and gravity.
Aside from gravity, which of course is always existent, is the chair's reaction to you. This is an example of Newton's Third Law. For every force, there is an equal and opposite reactionary force.
If you are sitting on a chair in its normal position, then your weight exerts a force downwards on the chair (action) and the chair exerts an equal and opposite force equal to your weight on you, that's why both you and the table are stationary in equilibrium
If your feet are off of the floor, then the chair exerts your total weight against you.
The force of gravity pulling you into the chair and the ambient pressure pushing in on your body from all directions.
When you sit in a chair it exerts a force<\u> against you
When you sit in chair,it exerts NORMAL FORCE against you.
normal force
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They are equal and opposite (Newton's third law).Each action has an equal an opposite reaction. For example: pulling on a rubber band and letting it go will cause it to fly around. This is the action and related response or reaction desired.
Put a chair against the wall and have them bend over and put their head on the wall and pick the chair up and then stand straight up. Men can't do it.
This is a weirdly worded question but friction.
A real-life example of Newton's third law is when you sit on a chair. As you sit down, you apply a force on the chair, and the chair applies an equal and opposite force on you. This is why you don't fall through the chair but instead remain seated.
In the opposite direction, and on the other object. In this case, the chair pushes upward against the person.
It exerts normal force to you.
normal force
If your feet are off of the floor, then the chair exerts your total weight against you.
When you sit in a chair it exerts against you
A normal force.
AS much as you weigh is the lbs of force that your chair exerts
normal force
The Answer is (A) - Zero Explanation: When you sit in your chair, your body exerts a downward force on the chair and the chair exerts an upward force on your body. There are two forces resulting from this interaction - a force on the chair and a force on your body. These two forces are called action and reaction forces.
because the floor exerts the same amount of force which means the net force is balanced causing it not to move
Your weight exerts a downward force, while the chair exerts an upward force equal in magnitude to your weight.
The pressure caused is created when the normal force of the chair (the chair pushing back against you, as opposed to breaking down) acts against your weight.
WHEN I SIT ON A CHAIR IT MAKES ME RELAX.