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5.0
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| Name | Grades | Rating | |||
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Not teaching in Spring 2026 | |||||
MECH 3380 Arif Malik | |||||
B | |||||
Search Results
| Name | Grades | Rating | |||
|---|---|---|---|---|---|
Not teaching in Spring 2026 | |||||
MECH 3380 Arif Malik | |||||
B | |||||
Grades: 842
Median GPA: A-
Mean GPA: 3.218
2.9
Professor rating
3.9
Difficulty
14
Ratings given
50%
Would take again
Introduction to Computational Design and Analysis
MECH 3380
Erik Jonsson School of Engineering and Computer Science
Lecture course. This course covers analytical and computer-based methods to design and analyze engineering structures. The course builds on prerequisite knowledge in mechanical engineering design, mechanics of materials, physics, engineering mathematics, and computer programming. The scope includes fundamentals of product design requirements, evaluation of stress and deformations in solids with complex geometries, and manufacturing process considerations. The course introduces 1-D boundary value problems, numerical solution methods (finite element analysis), and various computational tools to assess failure criteria. Additional topics include identifying linear vs. nonlinear structural problems, function approximation tools to reduce simulation time, and design optimization techniques. Computer programming and computer-based solid modeling/analysis tools are integrated into the course to facilitate the design and evaluation of complex, real-world problems. 3 credit hours.
Prerequisites: CS 1325 and MATH 2420 and MECH 2320 and MECH 3305 or equivalents.
Offering Frequency: Each year
Grades: 364
Median GPA: B
Mean GPA: 2.911
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Grades: 842
Median GPA: A-
Mean GPA: 3.218
2.9
Professor rating
3.9
Difficulty
14
Ratings given
50%
Would take again
Introduction to Computational Design and Analysis
MECH 3380
Erik Jonsson School of Engineering and Computer Science
Lecture course. This course covers analytical and computer-based methods to design and analyze engineering structures. The course builds on prerequisite knowledge in mechanical engineering design, mechanics of materials, physics, engineering mathematics, and computer programming. The scope includes fundamentals of product design requirements, evaluation of stress and deformations in solids with complex geometries, and manufacturing process considerations. The course introduces 1-D boundary value problems, numerical solution methods (finite element analysis), and various computational tools to assess failure criteria. Additional topics include identifying linear vs. nonlinear structural problems, function approximation tools to reduce simulation time, and design optimization techniques. Computer programming and computer-based solid modeling/analysis tools are integrated into the course to facilitate the design and evaluation of complex, real-world problems. 3 credit hours.
Prerequisites: CS 1325 and MATH 2420 and MECH 2320 and MECH 3305 or equivalents.
Offering Frequency: Each year
Grades: 364
Median GPA: B
Mean GPA: 2.911
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