F[net]=ma ([net] force = mass X acceleration). It is possible. While mass can't be negative, acceleration depends on which direction you're measuring to be positive. If you're acceleration is negative, so is your net force. For example, if you're traveling 60 mph southward, and apply the breaks at -4.7 m/s/s, to find the net force (This works because your car technically would have been in equilibrium had it stayed at 60 mph in the same direction), you would simply multiply your rate of acceleration by the mass of your vehicle, say 1000 kg, which would give you a net force (all forces cosidered) of -4700N southward. At the same time, this could be taken as positive 4700N northward; hence it's directionally dependent. But, long story short, yes; it is possible to have a negative net force, because force is a vector (Includes direction and quantity).
Hope this helps!
- Fellow physics student
Take north to be the positive direction, and south to be the negative direction. Net force = 13N + (-17N) = -4N Net force = 4N to the south.
If the 10N force is positive, meaning to the north, then the 5N south would be negative, and the net force is 10N + (-5N) = 5N to the north.
You must first choose which direction you shall call positive, thereby the opposite direction shall be negative. Then you add these two values together to get your answer, the total net force.
We are assuming that the forces are opposite of each other, meaning that they will cancel out. Net force is simply 39-22 (or 17 newtons).
Inertia will not be affected when "net" or "net force" is zero.
No, the net force acting on an object cannot be negative.
When an object experiences a negative net force, it will accelerate in the direction opposite to the force.
Yes, it is possible for the net force acting on an object to be negative. This means that the forces acting on the object are in opposite directions, resulting in a net force that is negative.
Yes, an object can have a negative net force acting on it, which means that the forces acting on the object are in opposite directions and the overall effect is a force in the negative direction.
A negative number in the net force equation indicates that the forces acting on an object are in opposite directions.
If the net force of an object is in the negative direction, the resulting acceleration will also be in the negative direction. This means that the object will be accelerating in the opposite direction of the applied force.
Take north to be the positive direction, and south to be the negative direction. Net force = 13N + (-17N) = -4N Net force = 4N to the south.
It would be in the negative direction as well. Newton's Second law states that the acceleration of an object directly depends on the net force given to that object.
It would be in the negative direction as well. Newton's Second law states that the acceleration of an object directly depends on the net force given to that object.
If the 10N force is positive, meaning to the north, then the 5N south would be negative, and the net force is 10N + (-5N) = 5N to the north.
No , it is less than -7N force , Negative sign with a 7 N force tells us that it is acting in a direction opposite to that of motion of the body or ,.......
You must first choose which direction you shall call positive, thereby the opposite direction shall be negative. Then you add these two values together to get your answer, the total net force.