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Yes, the forces that are balanced are firstly weight and the other is reaction of ground.
Whenever there are unbalanced forces, an object will accelerate. If you are sitting on a chair and there are unbalanced forces, you will start to move.
When you sit in a chair your gravitational weight down on the chair and the chair pushes up to counteract
Two forces: gravity and the support force (according to Newton's law) that opposes it.
An example is a hat sitting on someone's head.
The chair in pushing you up and the gravity pushing you down
Yes, the forces that are balanced are firstly weight and the other is reaction of ground.
Whenever there are unbalanced forces, an object will accelerate. If you are sitting on a chair and there are unbalanced forces, you will start to move.
All three of the forces are acting on the office chair.
When you sit in a chair your gravitational weight down on the chair and the chair pushes up to counteract
Your weight pushing down on the chair is the action force. The reaction force is the force exerted by the chair that pushes up on your body
Balanced, the force or the chair pushing up against you is equal to the force of you being pulled down by gravity. Now if the chair was breaking and you were falling that would be a completely different story.
Yes - if the sum of the forces is zero.Yes - if the sum of the forces is zero.Yes - if the sum of the forces is zero.Yes - if the sum of the forces is zero.
Sitting in a chair, gravity is pulling down while the chair is holding you up does this answer your question??
Two forces: gravity and the support force (according to Newton's law) that opposes it.
While you're moving, the forces acting on you are unbalanced, and add up to something. When you're sitting, the forces acting on you are balanced, and add up to zero.
Your weight pushing down on the chair is the action force. The reaction force is the force exerted by the chair that pushes up on your body