No...
Newton's 1st law says that
In the absence of a net force, the center of mass of a body either is at rest or moves at a constant velocity.
Therefore there may be a case that no force is acting on the body but it is moving with a constant velocity...
(Centre of mass is a point where all the mass is assumed to be concentrated...For symmetrical objects it is their geometrical centre...)
A moving object stops when its force is used up. The resistance to change its motion is known as inertia.
No, it will continue moving indefinitely. This is hard to observe on Earth, because there is usually some friction. But in outer space, objects can move for a long, long time.
If there are any forces acting on a stationary object, then they must be balanced, or it would no longer remain stationary.It is also possible that the object is already moving. In the forces are balanced on a moving object, the object would continue moving at the same speed and direction (velocity) that it already had.
If forces on an object are unbalanced, the object will accelerate or decelerate. If forces on an object are balanced, the object will stay still or keep moving with the same velocity.
Sure, as long as the sum of the forces is zero.
It is in Equilibrium and there are no forces acting on it.
The object will be in both rotational and translational equilibrium and will not be moving.
It will stop moving.
If there are any forces acting on a stationary object, then they must be balanced, or it would no longer remain stationary.It is also possible that the object is already moving. In the forces are balanced on a moving object, the object would continue moving at the same speed and direction (velocity) that it already had.
If forces on an object are unbalanced, the object will accelerate or decelerate. If forces on an object are balanced, the object will stay still or keep moving with the same velocity.
Sure, as long as the sum of the forces is zero.
zero
It is in Equilibrium and there are no forces acting on it.
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.
The object will be in both rotational and translational equilibrium and will not be moving.
If the object is not moving, then the only thing you can be sure of is that since it's not accelerating, all of the forces acting on it add up to zero. Just the fact that it's not moving is not enough information to tell you that there are no forces on it.
it will lost its balance and crash
Tension forces are two forces acting on one object, moving in opposite directions (away from one another) to stretch the object. Compression forces are two forces acting on one object, moving in opposite directions (towards one another) to compress or deform the object.
An object accelerates when all the forces acting on it don't add up to zero.