You must firstly know it's physical details and it's conditions (The objects'). If you apply a balanced wave of force it will maintain those physical details and conditions but if you apply an unbalanced wave to the object it will suffer from maintaining it's physical details and conditions. Also when the object is not moving or when the object is moving at a constant velocity and if at it's moving it doesn't have any changing velocity (Acceleration) it will mean the applied force is balanced. Other than this, is unbalanced.
balanced = no movement of the object unbalanced = the object moves
balanced forces don't move an object, but unbalanced forces on an object do move
Balanced forces applied on both sides of an object cause it to be still. Unbalanced forces will cause the object to move away from the strongest force.
There is no such thing as "a balanced force" or "a unbalanced force". Only a group of two or more forces can be balanced or unbalanced. An unbalanced group of forces acting on an object causes accelerated motion of the object. A balanced group of forces doesn't.
Balanced forces applied on both sides of an object cause it to be still. Unbalanced forces will cause the object to move away from the strongest force.
[object Object]
* Balanced: The vector sum of all forces on an object is zero. The object does not accelerate.* Unbalanced: The vector sum of all forces on an object is NOT zero, the object DOES accelerate.
When balanced forces are applied to a moving object, the object likely slow and eventually stop. How quickly that occurs depends on the amount of force.
Balanced: the vector sum of all forces on an object is zero. Unbalanced: this sum it is not zero.
it is when an object has unbalanced forces and balanced is when an object has equal forces
When an object is at rest, the forces acting upon it are balanced - there are no unbalanced forces.
An object with no force on it will either be at rest or moving with a steady velocity, an object with an unbalanced force, which is the same as saying it has a net force on it, will be accelerating (or decelerating)