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It is also possible to test a physical object to determine its natural frequencies and mode shapes. This is called an [[modal analysis|Experimental Modal Analysis]]. The results of the physical test can be used to calibrate a finite element model to determine if the underlying assumptions made were correct (for example, correct material properties and boundary conditions were used).
== FEA eigensystems{{Technical inline|date=September 2024|reason='FEA' has not been defined or mentioned elsewhere in this article}} ==
For the most basic problem involving a linear elastic material which obeys [[Hooke's
the [[Matrix (mathematics)|matrix]] equations take the form of a dynamic three-dimensional spring mass system.
The generalized equation of motion is given as:<ref>Clough, Ray W. and Joseph Penzien, ''Dynamics of Structures'', 2nd Ed.,
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This is the general form of the eigensystem encountered in structural
engineering using the [[Finite element method|FEM]]. To represent the free-vibration solutions of the structure, harmonic motion is assumed
is taken to equal <math>\lambda [U]</math>,
where <math>\lambda</math> is an eigenvalue (with units of reciprocal time squared, e.g., <math>\mathrm{s}^{-2}</math>)
McGraw-Hill Publishing Company, New York, 1993, page 201</ref>
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== External links ==
*[
{{DEFAULTSORT:Modal Analysis Using Fem}}
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