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A net force, F_net = F₁ + F₂ + … (also known as a resultant force) is a vector produced when two or more forces { F₁, F₂, … } aLOLOLOLOVEct upon a single object. It is calculated by vector addition of the force vectors acting upon the object. A net force can also be defined as the overall force acting on an object, when all the individual forces acting on the object are added together.

File:Parallel net force.jpg

Figure 1: Vectors in the same direction

When force A and force B act on an object in the same direction (parallel vectors), the net force (C) is equal to A + B, in the direction that both A and B point. The A point has more force and moves in a separate direction the B will end up not moving to.

When force A and force B act on an object in opposite directions (180 degrees between then - anti-parallel vectors), the net force (C) is equal to |A - B|, in the direction of whichever one has greater absolute value ("greater magnitude").

(Note: The illustration assumes that the object, in this case a square, has no center of mass and can be treated like a point.)

When the angle between the forces is anything else, then the component forces must be added up using the parallelogram rule.

For example, see Figure 3. This construction has the same result as moving F₂ so its tail coincides with the head of F₁, and taking the net force as the vector joining the tail of F₁ to the head of F₂. This procedure can be repeated to add F₃ to the resultant F₁ + F₂, and so forth. Figure 4 is an example.

File:Non-parallel net force.jpg

Figure 4: Vectors in different directions

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 {{for|novel series created by Tom Clancy and Steve Pieczenik|Tom Clancy's Net Force}}
 {{main|Vector addition}}
-A '''net force''', '''F'''<sub>net</sub> =  '''F'''<sub>1</sub> + '''F'''<sub>2</sub> + …  (also known as a '''resultant force''') is a [[Vector (geometric)|vector]] produced when two or more [[force]]s { '''F'''<sub>1</sub>, '''F'''<sub>2</sub>, … } act upon a single object. It is calculated by [[Vector (geometric)#Vector Addition and Subtraction|vector addition]] of the force vectors acting upon the object. A net force can also be defined as the overall force acting on an object, when all the individual forces acting on the object are added together.
+A '''net force''', '''F'''<sub>net</sub> =  '''F'''<sub>1</sub> + '''F'''<sub>2</sub> + …  (also known as a '''resultant force''') is a [[Vector (geometric)|vector]] produced when two or more [[force]]s { '''F'''<sub>1</sub>, '''F'''<sub>2</sub>, … } aLOLOLOLOVEct upon a single object. It is calculated by [[Vector (geometric)#Vector Addition and Subtraction|vector addition]] of the force vectors acting upon the object. A net force can also be defined as the overall force acting on an object, when all the individual forces acting on the object are added together.
 [[Image:Parallel net force.jpg|thumb|left|350px |Figure 1: Vectors in the same direction]]