![]() ![]() Consider the three situations below in which the net force is determined by summing the individual force vectors that are acting upon the objects. The addition of force vectors can be done in the same manner in order to determine the net force (i.e., the vector sum of all the individual forces). Draw a free body diagram for each and show the directions of forces as well as the total net force and direction of net force. And a leftward vector will provide a partial or full cancellation of a rightward vector. Observe in the diagram above that a downward vector will provide a partial or full cancellation of an upward vector. Observe the following examples of summing two forces: At this point, the rules for summing vectors (such as force vectors) will be kept relatively simple. That is to say, the net force is the sum of all the forces, taking into account the fact that a force is a vector and two forces of equal magnitude and opposite direction will cancel each other out. The net force is the vector sum of all the forces that act upon an object. It is commonly said that in each situation there is a net force acting upon the object. In each of the above situations, there is an unbalanced force. Note that the actual magnitudes of the individual forces are indicated on the diagram. Each situation is described and the learner clicks/taps on-screen buttons to select forces that are directed upward, downward, rightward and leftward. Free-body diagrams for three situations are shown below. The Free-Body Diagrams Interactive is a skill-building tool that allows the learner to interactively construct free-body diagrams for 12 physical situations. When analyzing problems which involve forces, it is convenient to draw a diagram where all of the forces acting on a body are drawn as vectors on a set of. ![]() The existence of an unbalanced force for a given situation can be quickly realized by looking at the free-body diagram for that situation. If either all the vertical forces (up and down) do not cancel each other and/or all horizontal forces do not cancel each other, then an unbalanced force exists. In the statement of Newton's first law, the unbalanced force refers to that force that does not become completely balanced (or canceled) by the other individual forces. An object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force. If you have been reading through Lessons 1 and 2, then Newton's first law of motion ought to be thoroughly understood. ![]()
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