Engineering Static Vs Dynamic Force Analysis in Mechanism

AI Thread Summary
Static force analysis is used for rigid bodies in equilibrium, ignoring inertia, while dynamic force analysis accounts for motion and acceleration, including inertia effects. The application of dynamic analysis is crucial for mechanisms with high speeds or significant accelerations, as these factors influence the forces at play. In scenarios involving moving linkages, the choice between static and dynamic analysis depends on the mechanism's speed and the accelerations of its components. There is no strict velocity threshold; instead, the decision should be made based on the specific conditions and forces involved. Ultimately, understanding the context and dynamics of the mechanism is essential for accurate force analysis.
tetris
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Homework Statement
When should static or dynamic force analysis be applied when analyzing moving mechanisms ?
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My understanding is that :
Static Force Analysis
  • carried out on objects in static or dynamic equilibrium, that is rigid bodies that are not moving or moving with zero acceleration
  • therefore, does not take into account the inertia of the object
Dynamic Force Analysis
  • carried out on objects in motion with an acceleration
  • therefore, takes into account the inertia of the object (along with the angular velocity and angular acceleration)
However, I have seen both static and dynamic force analysis applied to a moving four bar linkage. In the case where I would like to find the force applied to the coupler to move the mechanism from position A to B, would dynamic force analysis be used? Since, the velocity would not be constant, hence, it has an acceleration.

Any help is appreciated, thanks in advance.
 
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Welcome! :smile:
It depends on what force is greater.
We are interested on how robust the joint should be to resist those forces.
We can have a light link accelerating much and rapidly, like the connecting rod of a small engine: dynamic forces are more important in that case.
 
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Firstly, thank you for your help :smile:

In summary, it depends on the speed of the mechanism. So, for the same mechanism, if one is moving at very high speed, then dynamic analysis would be used. On the other hand, if it is moving at low speed, static analysis would be sufficient since the inertia effects are small.

However, is there a velocity or any other value threshold where dynamic analysis should be applied?
 
tetris said:
Firstly, thank you for your help :smile:

In summary, it depends on the speed of the mechanism. So, for the same mechanism, if one is moving at very high speed, then dynamic analysis would be used. On the other hand, if it is moving at low speed, static analysis would be sufficient since the inertia effects are small.

However, is there a velocity or any other value threshold where dynamic analysis should be applied?
It depends on the accelerations of the mechanism components. There could be a mechanism with a low output velocity, but that experiences large accelerations in its components. Accelerations and mass are what generate force. It really should be taken on a case by case basis.
 

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