Equilibrium: What Must Be True?

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SUMMARY

In the context of equilibrium, several key principles must be acknowledged. The net force acting on an object in equilibrium is definitively 0 N, indicating that forces are balanced. While some may assume that all individual forces must be equal in magnitude, this is incorrect; the vector sum of forces must equal zero, allowing for different magnitudes. Additionally, while the acceleration is 0 m/s², the object is not necessarily at rest, as it can maintain a constant velocity.

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  • Understanding of Newton's laws of motion
  • Knowledge of vector addition and force analysis
  • Familiarity with concepts of net force and acceleration
  • Basic principles of static and dynamic equilibrium
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Students of physics, educators teaching mechanics, and engineers involved in structural analysis will benefit from this discussion on equilibrium principles.

badboyben03
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if an object is in equilibrium, then which of the following must be true?

(i know net force has to be 0, forces are balanced, and acceleration is 0. it doesn't always mean it is at rest. i think there's still one or two more "must be trues" in the list.)

a. all individual forces acting upon the object are equal in magnitude.

b. the net force is 0 N.

c. the force of gravity is equal to the normal force.

d. the forces are balanced.

e. the acceleration is 0 m/s/s

f. the object is at rest

g. the velocity (whether zero or non-zero) is constant.

h. the velocity is changing.
 
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I think A, C, D, G are also true, but I might be wrong

A) if they weren't equal, they wouldn't be in equilbrium

C) is the force of gravity wasn't equal to the normal force, it would fall

G) The velocity has to be either consitant or changing, and its not changing
 
Originally posted by dimava
A) if they weren't equal, they wouldn't be in equilbrium
A is not true. The forces can be different in magnitude, as long as the vector sum is zero. (Think about three forces acting on the body.)
C) is the force of gravity wasn't equal to the normal force, it would fall
C is not true. There might not even be a normal force. But if there was one, it may not equal the weight. (Consider a ladder leaning against a wall: does the normal force equal the ladder's weight?)
 

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