There's no such thing as a balanced force or an unbalanced force.
If the entire group of all the forces on an object is unbalanced, then the object
undergoes acceleration, or its "motion changes". If the group of forces on it is
balanced, then its motion doesn't change.
The the forces are unbalanced, that means that the net force is non-zero.
Forces (plural) are balanced if their vector sum is zero. Since an unbalanced force causes an acceleration, if an object isn't accelerating then the forces on it are balanced.
An unbalanced force acting on an object causes a change in its motion by accelerating it in the direction of the force. This acceleration results in the object moving. The greater the unbalanced force, the greater the acceleration and speed of the object.
It depends what the situation is. If an object is falling, the weight of the object, which is determined by the object's mass and the gravity, is the force causing it to accelerate. If you're talking about a box being pushed, you could have a person pushing it, which causes it to accelerate, but you also must take into account the force of friction combatting the applied force.
There is no such thing as a balanced force or an unbalanced force. A groupof two or more forces may be balanced or unbalanced. The group of forces isbalanced if the vector sum of all the forces in the group is zero.
Pushing a box that doesn't move indicates an unbalanced force. If the force of friction opposing the push is greater than the force you are exerting, the box will not move. In this case, the forces are unbalanced.
Pushing a rock is an unbalanced activity because it requires a force to overcome the rock's inertia and move it in a specific direction.
Since there is an acceleration (a change of velocity), the forces are unbalanced.
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.
During the time, you're pushing it, the forces are unbalanced. Once you stop, they are balanced. Unbalanced forces result in a change in motion, even if it is slowing it to a stop. Balanced forces produce no change.
When you stop pushing on a box and it slows down, it is due to an unbalanced force. The force of friction between the box and the surface is greater than the force you applied to move it, causing it to slow down.
Only if it goes faster and faster. Otherwise, if you have to push all the time and it maintains its speed, that means that the force of the pushing is balanced by other forces, usually friction.
If a box is slowing down while being pushed, it suggests that there is an unbalanced force acting on it. The force causing the box to slow down is greater than the force pushing it, creating an imbalance.
Examples: Balanced: Two kids are playing tug of war. They are both exerting 4 Newtons of force. (Balanced forces=0 Newtons) Unbalanced: Two kids are playing tug of war. One kid is exerting 6 Newtons of force, the other is exerting 7 Newtons of force. (Unbalanced forces=1 or more Newtons difference[7N-6N=1N) Just because the forces are balanced, doesn't mean that they have to be less than the unbalanced forces. N=Newton
This is unbalanced force. Whenever a greater force is acting upon a smaller force, it is clearly unbalanced. I'm pretty sure this is the right answer because if you have the same science questions from a science textbook then my science teacher said it was unbalanced.
-- "Inertia" is not a force. -- There is no such thing as a single balanced force or a single unbalanced force.
well it dipends because if its a balanced force there wouldn't be change in movement and if its unbalanced force there would be some types of change of movement. i hope this made you realize the answer