Yes. When I learned about this, my teacher started pushing on a closed door and asked us what this was an example of. obviously none of us knew at the time, but then ya know, we learned. So to wrap up...YES!
If the [group of] forces on an object is unbalanced, the object accelerates.
Balanced forces will either push or pull against each other with equal force and no net movement will result. If forces are unbalanced, that means that one will push or pull harder than the other and movement will result.
This is best Answered by realizing that "balanced Forces cannot, collectively, Produce Motion"; ergo, only unbalanced forces can provide - or change the state of - Motion.
There is no such thing as "an unbalanced force". There are only forces. When two or more separate forces act on the same object, the GROUP of forces may be balanced or unbalanced. If the sizes and directions of all the individual forces add up to zero, then the GROUP of forces is balanced. If one of them changes or goes away, then the GROUP of forces is unbalanced.
Two forces equal in size and opposite in direction are balanced, not unbalanced, because they cancel each other out. Any set of forces which has a resultant of zero is said to be balanced.
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unbalanced forces cause acceleration, an object in freefall has gravity as an unbalanced force.
this is unbalanced forces.
The result of unbalanced forces is a net force that can accelerate a body.
If a car (or any object, for that matter) accelerates, that is, if it velocity changes, then there are unbalanced forces. If the object doesn't accelerate - for example, if it remains on the spot - then the forces are balanced.
forces can be unbalanced because they are at differant hights there fore they are not at equal hights so they are unbalanced.
unbalanced foeces
False forces that are equal in size but opposite in direction are called balanced forces. Unbalanced forces acting on an object cause the object to accelerate.
A group of forces is an unbalanced group when the vector sum of all the forces in the group is not zero. It's not the forces that are unbalanced. It's the group.
Unbalanced forces cause acceleration.
Unbalanced forces is when the forces are 0N or more. Balanced forces are 0.
Forces are said to be unbalanced when the sum of the forces (the vector sum, to be precise) is not equal to zero.