Equilibrium Condition.
If the net forces on an object are balanced, the object will remain at rest or continue to move at a constant velocity. You can determine if forces are balanced by calculating the sum of the forces in each direction (e.g., horizontal and vertical) and comparing them. If the sum of the forces in each direction is zero, the forces are balanced.
If the forces are balanced (in other words, the net force on an object is zero), then the object will not accelerate (its velocity will not change).If the forces are balanced (in other words, the net force on an object is zero), then the object will not accelerate (its velocity will not change).If the forces are balanced (in other words, the net force on an object is zero), then the object will not accelerate (its velocity will not change).If the forces are balanced (in other words, the net force on an object is zero), then the object will not accelerate (its velocity will not change).
When two forces cancel each other out, they are equal in magnitude and opposite in direction. This results in a net force of zero and no change in the object's motion. An example is a book resting on a table where the force of gravity pulling it down is balanced by the normal force of the table pushing it up.
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.
Balanced forces do not bring about any change in motion. If forces are balanced, an object is either at rest, or moving in a straight line at constant velocity.
If the net forces on an object are balanced, the object will remain at rest or continue to move at a constant velocity. You can determine if forces are balanced by calculating the sum of the forces in each direction (e.g., horizontal and vertical) and comparing them. If the sum of the forces in each direction is zero, the forces are balanced.
If the forces acting on an object are balanced, the object will remain at rest or continue to move at a constant velocity. In other words, there will be no acceleration. Balanced forces do not cause motion, but rather maintain the current state of motion or rest.
Motion is related to balanced forces by causing an object to remain at rest or to move at a constant velocity in a straight line. Balanced forces have equal magnitudes and opposite directions, resulting in no net force on the object. In contrast, unbalanced forces cause an object to accelerate or decelerate, changing its velocity or direction of motion. Unbalanced forces have unequal magnitudes or are not directly opposite, resulting in a net force that causes motion.
In this case, the forces on the object are balanced. In other words, the vector sum of all the forces is zero.
If the net force is zero, then the forces are balanced. If the net force is not zero, then the forces are not balanced. You can have a balanced pair of forces, but not a pair of balanced forces.
You say that the two forces are in equilibrium.
Unbalanced forces is when the forces are 0N or more. Balanced forces are 0.
If the forces are balanced, then by definition the sum of the forces is zero.
Balanced forces do not alter the motion of objects.
balanced
A balanced group of forces has the same effect as no force at all.
If the forces are balanced (in other words, the net force on an object is zero), then the object will not accelerate (its velocity will not change).If the forces are balanced (in other words, the net force on an object is zero), then the object will not accelerate (its velocity will not change).If the forces are balanced (in other words, the net force on an object is zero), then the object will not accelerate (its velocity will not change).If the forces are balanced (in other words, the net force on an object is zero), then the object will not accelerate (its velocity will not change).