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After we have done this, we have a diagram of vectors and we simply find the sum of the vectors to get the resultant force.
For example, two people push on a box from opposite sides with forces of 4 N and 6 N respectively as shown in [link] (a). The free body diagram in [link] (b) shows the object represented by a dot and the two forces are represented by arrows with their tails on the dot.
As you can see, the arrows point in opposite directions and have different lengths. The resultant force is 2 N to the left. This result can be obtained algebraically too, since the two forces act along the same line. First, as in motion in one direction, choose a frame of reference. Secondly, add the two vectors taking their directions into account.
For the example, assume that the positive direction is to the right, then:
Remember that a negative answer means that the force acts in the opposite direction to the one that you chose to be positive. You can choose the positive direction to be any way you want, but once you have chosen it you must keep it.
As you work with more force diagrams in which the forces exactly balance, you may notice that you get a zero answer (e.g. 0 N). This simply means that the forces are balanced and that the object will not accelerate.
Once a force diagram has been drawn the techniques of vector addition introduced in Chapter [link] can be used. Depending on the situation you might choose to use a graphical technique such as the tail-to-head method or the parallelogram method, or else an algebraic approach to determine the resultant. Since force is a vector quantity all of these methods apply.
A car (mass 1200 kg) applies a force of 2000 N on a trailer (mass 250 kg). A constant frictional force of 200 N is acting on the trailer, and a constant frictional force of 300 N is acting on the car.
The question asks us to draw all the forces on the car. This means that we must include horizontal and vertical forces.
The question only asks for horizontal forces. We will therefore not include the force of the Earth on the trailer, or the force of the road on the trailer as these forces are in a vertical direction.
To find the resultant force we need to add all the horizontal forces together. We do not add vertical forces as the movement of the car and trailer will be in a horizontal direction, and not up or down. F = 2000 + (-200) = 1800 N to the right.
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