Yes, if the forces are equal and acting in opposite directions, the net force will equal zero and that object can be said to be at rest.
An object at rest will stay at rest unless acted upon by an external force - newtons 1st law of motion. It will stay at rest If no force is applied. Also if equal and opposite forces are applied (balanced) to a resting object it will remain at rest also - every action has an equal and opposite reaction - newtons 3rd law of motion
when the forces are balanced ,means a net external force is applied the object continues to be in the same state of rest or of motion
If an object is at rest, a force must be applied to accelerate it (start it moving).
An object at rest cannot start moving with no forces.
Not at all. The object is at rest only because the forces are balanced.
Yes. Please note that in "real life", forces ALWAYS apply to an object - there is always the force of gravity.The only condition to remain at rest is that the NET FORCE, in other words THE SUM OF ALL FORCES on the object, is zero.
When an object is at rest, the forces acting upon it are balanced - there are no unbalanced forces.
The first part to answering this question is Newton's Laws of Motion. His first law states this: "Every object in a state of uniform motion will remain in that state of motion unless an external force is applied to it" Thus, the external forces could be someone pushing an object or even friction (from the surface, amount of friction is called the coefficient of friction) so if the force needed to move an object is more than the force applied, then the object will be at rest, until a further force is applied which is great enough to move the object.
balanced forces don't move an object, but unbalanced forces on an object do move
An object at rest has zero acceleration. If the set of forces acting on a moving object is balanced, then the moving object also has zero acceleration.
Yes, balanced forces will keep an object at rest.
when the net force of an object is at zero, it is at rest. That means that the forces on it are balanced. when the net force is not zero, the forces are unbalanced.