Final answer:
The object's movement depends on the direction and magnitude of the two forces. If the forces are in the same direction, their magnitudes add and the object could move. If the forces are in opposite directions and of equal magnitude, they cancel out and the object does not move. If they are unequal, the object moves in the direction of the greater force.
Step-by-step explanation:
Without an exact depiction of the two forces mentioned in your question, we will associate this case with a general scenario where two different forces act on an object. If two forces align in the same direction, their magnitudes add up, and hence, the object might move depending on the net force and the mass of the object. However, if two forces are oriented in opposite directions, their magnitudes subtract from each other. If these forces are equal, they cancel out, and the object stays in equilibrium, meaning it won't move. However, if they're unequal, the net force is the difference between the two, and the object will move in the direction of the greater force.
Understanding that forces are vectors, they not only have magnitudes but also directions. Vectors can be added using the head-to-tail method or trigonometric methods. Newton's first law, often referred to as the law of inertia, states that an object will remain at rest or in uniform motion in a straight line unless acted upon by an external force. In conclusion, the movement of an object acted upon by two forces relies upon the direction and magnitude of these forces.
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