Physics
Isaac Newton

# What happens to the motion of an object when the forces on it are balanced?

it stays in motion at the same speed and irection

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The object continues to move in a straight line at constant velocity.

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## Related Questions

Balanced forces cancel each other, hence, they do not alter the motion of an object upon which they are acting.

Of course they can, but as they are balanced no change in the motion happens.

Balanced forces do not change its motion (no acceleration). Unbalanced forces changes the motion of the object (acceleration).

When the forces acting on an object are balanced, they cancel each other out and the result is no change in its motion.Balanced forces have no effect on motion. Unbalanced forces cause acceleration.

If all forces of an object are balanced, then the motion of the object will remain the same. For instance, if all forces are balanced and if the object is moving, then it will continue to move. If it's still, it will remain still.

The object will keep moving at a constant speed if the forces acting on an object is balanced as both forces are balanced

A group of forces that is balanced ... that is, forces whose vector sum is zero ... has no effect on the motion of an object, whether the object is stationary or in motion. However, they may crush the object.

When no changes in motion occur the forces on an object are balanced.

Balanced forces that net to zero cause no change in an object motion.

No. If the forces on an object are balanced, then their vector sum is zero, and their effect on the object's motion is the same as the effect of no forces at all.

When the forces on an object are balanced, the effect is the same as if there were no forcesacting on the object at all. Its speed is constant, and it moves in a straight line.

If no unbalanced force operates on an object its motion will be constant.

The term 'balanced forces' means that the forces are in equilibrium. So these balanced forces would have no effect on motion.

Newton's first law states that an object at rest stays at rest and an object in motion stays in motion with constant velocity unless acted upon by an unbalanced force. This is also called the law of inertia. So, the forces acting on an object are balanced when the object is not accelerating. This happens when the object is at rest, or when the object is moving at constant velocity. ===================== The forces on an object are balanced when their vector sum is zero.

Balanced force can keep object in constant uniform motion only when moved. Unbalanced force can change state of motion of the object. If the object is at rest by a balanced force or unbalanced it can be set into motion or vice versa.

A balanced group of forces acting on the object has no effect on its motion. The object continues moving in a straight line at constant speed.

When equal and opposite forces act on an object, the object does not change its state of rest or motion. These forces are called balanced forces. When unequal forces act on an object, the object changes its state of rest or motion. Such forces are called unbalanced forces.

You know when two forces are balanced when the motion of the object the forces are being applied to does not change.

balanced = no movement of the object unbalanced = the object moves

Balanced forces keep object in its state of motion (moving or at stop). An objects state of motion can be altered when it is subjected to an unbalanced force. This reflects Newtons first law of motion.

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 objectundergoes acceleration, or its "motion changes". If the group of forces on it isbalanced, then its motion doesn't change.

* 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.

If the forces on an object all balance each other, then they have the same effect on the object as no force at all, and its motion is not affected.