Mechanics and Computation / Main Page

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===~~Recent~~ News===

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===News===

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~~'''9~~/19/~~07'''~~ - ~~Joey set up the website!!~~!

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[https://mechanics.stanford.edu/events/present-seminars Check out our seminar!]

</div>

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===Introduction===

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This page is no longer maintained. Please visit us at [https://mechanics.stanford.edu/ our new web site]!

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==Introduction==

Teaching and research in the Mechanics and Computation Group is devoted to the study of a broad range of mechanical phenomena including the behavior of solids, fluids, biological tissue and complex materials under the actions of loads. The ultimate goals of this effort are to discover new scientific knowledge relevant to engineering problems of the future, to enhance technological development in a broad range of industries, to improve health in society and to advance national security and defense.

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To achieve our educational objectives our [[teaching]] and [[research]] encompasses computational mechanics, multiphysics modeling, computational bioengineering, and microscale devices.

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~~===Curricula===~~

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To deal with such complex and often multidisciplinary problems, the engineer must have a thorough knowledge of analytical, computational, and experimental methods and a deep understanding of underlying physical principles. To achieve this level of understanding, graduate curricula in Mechanics and Computation are offered which include core work in solids, fluids and computational mechanics, dynamics, fracture and biomechanics. Course work is supplemented with research in the student’s specialized area of interest.

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~~===Location===~~

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The Mechanics and Computation Group is located in the William F. Durand Building. The building provides offices, computer facilities, research laboratories, and seminar rooms for faculty, research associates, and graduate students of the Group. MS candidates planning to proceed to a Ph.D. program are encouraged to consider arranging three or more units of directed study (ME391/392) during their MS program.

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 <div class="infoBoxRight">
-===Recent News===
+===News===
-'''9/19/07''' - Joey set up the website!!!
+[https://mechanics.stanford.edu/events/present-seminars Check out our seminar!]
 </div>
-===Introduction===
+This page is no longer maintained. Please visit us at [https://mechanics.stanford.edu/ our new web site]!
+==Introduction==
 Teaching and research in the Mechanics and Computation Group is devoted to the study of a broad range of mechanical phenomena including the behavior of solids, fluids, biological tissue and complex materials under the actions of loads. The ultimate goals of this effort are to discover new scientific knowledge relevant to engineering problems of the future, to enhance technological development in a broad range of industries, to improve health in society and to advance national security and defense.
@@ Line 11: / Line 13: @@
 To achieve our educational objectives our [[teaching]] and [[research]] encompasses computational mechanics, multiphysics modeling, computational bioengineering, and microscale devices.
-===Curricula===
-To deal with such complex and often multidisciplinary problems, the engineer must have a thorough knowledge of analytical, computational, and experimental methods and a deep understanding of underlying physical principles. To achieve this level of understanding, graduate curricula in Mechanics and Computation are offered which include core work in solids, fluids and computational mechanics, dynamics, fracture and biomechanics. Course work is supplemented with research in the student’s specialized area of interest.
-===Location===
-The Mechanics and Computation Group is located in the William F. Durand Building. The building provides offices, computer facilities, research laboratories, and seminar rooms for faculty, research associates, and graduate students of the Group.  MS candidates planning to proceed to a Ph.D. program are encouraged to consider arranging three or more units of directed study (ME391/392) during their MS program.