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By the Pythagorean theorem, the magnitude of the resultant force is [ (-10) 2 + (-8) 2] 1/2 ≈ 12.8 N, which is also the magnitude of the equilibrant force. The angle of the equilibrant force can be found by trigonometry to be approximately 51 degrees north of east.
The force required to keep a system of forces in equilibrium is called the equilibriant of the system. In the example above the two forces F1 and F2 can be added to F(1,2). The equilibrant E acting in the opposite direction of F(1,2) keeps the system in balance.
Assuming that the sign is at equilibrium (a good assumption if it is remaining at rest), the two cables must supply enough upward force to balance the downward force of gravity. The force of gravity (also known as weight) is 49 N ( Fgrav = m*g ), so each of the two cables must pull upwards with 24.5 N of force.
The equilibrant force is a force that acts in the opposite direction to the net force acting on an object, ensuring that the object remains in equilibrium. It is a crucial concept in the study of statics, where the analysis of forces acting on stationary or balanced objects is the primary focus.
https://showmethephysics.com/home/notes/forces/ResultantsOtherAngles.htmhttps://docs.google.com/document/d/1LLdcwdXg06yZDEDELOzc_z_mhngTZDIO4g-CynVBBpw/edit?...
Equilibrium is any situation where the net force acting on an object is zero. We call it equilibrium because all the forces acting on the object equal out and cancel each other. Some situations of equilibrium are easy, others are more difficult, as the following images show.
18 Σεπ 2019 · Such a force is called the equilibrant and is equal in magnitude but opposite in direction to the original resultant force acting on the object. Definition: The equilibrant of any number of forces is the single force required to produce equilibrium.
