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If an object has a net force on it (meaning one or more forces on an object do not cancel) then the object will accelerate according to Newton's Second Law of Motion, F=ma, where F is the net force, m is the mass of the object, and a is its resultant acceleration.
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What is the motion of an object when the forces on an object are balanced?
Then the effect is as if there are no forces on it at all, and it moves in a straight line with constant speed.
How do forces affect motion when the forces are a balanced and b unbalanced?
If the forces on an object are balanced then the object will not move. This simply means that the forces on the object counteract each other. If they are unbalanced then the object will move under the effect of the resultant force. The resultant force is the combination of all of the forces acting on an object.
How do balance forces acting on an object affect its motion?
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.
When an object is at rest what are the forces acting on it?
You never know. The only thing you know about the forces on an object that's not accelerating is: They all add up to zero, and their effect on the object is the same as if no forces at all were acting on it. That's the same as saying that all the forces on the object are 'balanced'.
Describe the difference between balanced and unbalanced forces?
Balanced forces have the same effect as not moving at all. The motion of the object does not change at allOnly unbalanced forces can change the motion of an object. It does not matter if the object was at rest or was already moving.
How do unbalanced forces effect an objects motion?
If the [group of] forces on an object is unbalanced, the object accelerates.
Does balance forces acting on an object cause the object to accelerate?
No. A balanced group of forces has the same effect on an object as no force at all.
How do you explain the effect of balanced forces on the state of motion of an object?
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.
What is the motion of an object when the forces on an object are balanced?
Then the effect is as if there are no forces on it at all, and it moves in a straight line with constant speed.
What is the effect of balance forces on an object that is not moving?
A group of balanced forces adds vectorially to zero, so has no effect on any object, whether it's moving or not moving.
What is the effect of balanced forces on an object that is not moving?
A group of balanced forces adds vectorially to zero, so has no effect on any object, whether it's moving or not moving.
What effect do balanced forces have on stationary objects?
None. There is no effect on a stationary object.
What effect do forces have on a moving object?
Balanced forces will not change the velocity - speed and direction - of a moving object. the object will continue to move in the same way.
When the forces on an object produce a net force of zero is called what?
That's called a 'balanced' group of forces. Their effect on the object's motion is the same as the effect of zero force ... the object may rotate, but it won't accelerate.
How do forces affect motion when the forces are a balanced and b unbalanced?
If the forces on an object are balanced then the object will not move. This simply means that the forces on the object counteract each other. If they are unbalanced then the object will move under the effect of the resultant force. The resultant force is the combination of all of the forces acting on an object.
What is the cumulative effect of the forces on the objects motion?
The falling object
Balance forces have what affect on an objects motion?
"Balanced forces" means a set of forces that add up to zero.This group of forces acting on a single object have no effect on its motion, because they add up to zero,and their effect is equivalent to zero force on the object.
