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Yes, an object at rest can still have forces acting upon it. These forces may include gravitational forces, normal forces, frictional forces, or applied forces. These forces can either be balanced, resulting in the object remaining at rest, or unbalanced, causing the object to start moving.
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As long as an object at rest is there a force acting against it?
There can be forces acting on an object while it is at rest, as long as the forces cancel each out. For example: a block laying on a table feels the force of gravity pulling it down, but the table pushes up with the same force. Therefore, the forces cancel and the object remains at rest.
What happens if the forces acting on a object are balanced?
If the forces acting on an object are balanced, it means that the net force on the object is zero. In this case, the object will either remain at rest if it was initially at rest, or it will continue to move with a constant velocity if it was already in motion.
How do balanced forces affect an object that is at rest?
Not at all. The object is at rest only because the forces are balanced.
If an object is at rest all forces acting on that object must be?
If an object is at rest, the net force acting on it must be zero. This means that all forces acting on the object must be balanced and equal in magnitude but opposite in direction.
When is it clear that balanced forces are acting on an object?
Balanced forces are acting on an object when the object is either at rest or moving at a constant velocity. This occurs when the forces applied on the object cancel each other out, resulting in no acceleration.
Is it possible for an object at rest to have forces acting on it?
bob
As long as an object at rest is there a force acting against it?
There can be forces acting on an object while it is at rest, as long as the forces cancel each out. For example: a block laying on a table feels the force of gravity pulling it down, but the table pushes up with the same force. Therefore, the forces cancel and the object remains at rest.
An object at rest will remain at rest if?
All forces acting on it cancel out.
Does an object at rest have forces acting on it and if so what forces would be along the vertical axis?
Yes, an object at rest can have forces acting on it. The vertical forces acting on an object at rest would include gravity pulling it downward and the normal force from a surface pushing it upward to balance the force of gravity.
What happens if the forces acting on a object are balanced?
If the forces acting on an object are balanced, it means that the net force on the object is zero. In this case, the object will either remain at rest if it was initially at rest, or it will continue to move with a constant velocity if it was already in motion.
How do balanced forces affect an object that is at rest?
Not at all. The object is at rest only because the forces are balanced.
What are the forces acting on object at rest?
Usually gravity and friction.
If an object is at rest all forces acting on that object must be?
If an object is at rest, the net force acting on it must be zero. This means that all forces acting on the object must be balanced and equal in magnitude but opposite in direction.
When is it clear that balanced forces are acting on an object?
Balanced forces are acting on an object when the object is either at rest or moving at a constant velocity. This occurs when the forces applied on the object cancel each other out, resulting in no acceleration.
When the forces acting on an object are balanced the motion of the object?
When the forces acting on an object are balanced, the object will remain at rest or continue to move at a constant velocity in a straight line. This is known as equilibrium.
Explain Can there be forces acting on an object if the object is a rest?
Yes. Forces with identical value but with opposite direction will produce no displacement.
When an object is at rest how the magnitudes and directions of the pair of forces acting on it compare?
When an object is at rest, the magnitudes of the pair of forces acting on it are equal but opposite in direction. This is in line with Newton's first law of motion, which states that an object at rest will remain at rest unless acted upon by an external force.
