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All courses are for unit credit and apply to a De Anza associate degree unless otherwise noted.
D DMT 60D SolidWorks (Introduction)
Advisory: EWRT 200 and READ 200, or ESL 261, 262, and 263.
Two hours lecture, six hours laboratory (96 hours total per quarter).
This course covers the fundamentals of computer-aided design and drafting using SolidWorks software, and applications of SolidWorks in creating manufacturing models (parts, assemblies, and drawings).
DMT 60E SolidWorks (Introduction)
4 Units
Advisory: EWRT 200 and READ 200, or ESL 261, 262, and 263.
Two hours lecture, six hours laboratory (96 hours total per quarter).
This course covers the fundamentals of computer-aided design and drafting using SolidWorks software, and applications of SolidWorks in creating manufacturing models (parts, assemblies, and drawings).
DMT 61A SolidWorks (Intermediate)
4 Units
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
This course covers the intermediate-level application of SolidWorks in creating and maintaining solid models and drawings. Special emphasis is given to the creation and development of new drawings based on preexisting solid models.
DMT 61B SolidWorks (Intermediate)
4 Units
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
This course covers the intermediate-level application of SolidWorks in creating and maintaining solid models and drawings. Special emphasis is given to the creation and development of new drawings based on preexisting solid models.
DMT 61C SolidWorks (Intermediate)
4 Units
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
This course covers the intermediate-level application of SolidWorks in creating and maintaining solid models and drawings. Special emphasis is given to the creation and development of new drawings based on preexisting solid models.
DMT 61D SolidWorks (Intermediate)
4 Units
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
This course covers the intermediate-level application of SolidWorks in creating and maintaining solid models and drawings. Special emphasis is given to the creation and development of new drawings based on preexisting solid models.
DMT 61E SolidWorks (Intermediate)
4 Units
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
This course covers the intermediate-level application of SolidWorks in creating and maintaining solid models and drawings. Special emphasis is given to the creation and development of new drawings based on preexisting solid models.
DMT 62A SolidWorks: Top-Down Design and Advanced System Tools
4 Units
Prerequisite: Any DMT 61A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
Advanced 3D Solid Modeling techniques using SolidWorks. Emphasis is on Advanced Assembly Mates, Large Assembly Management Tools, and Top-Down Design. In addition, time is given to safe and proper development of new Solid Models and Drawing Documents from legacy solid models, using so-called Top- Down Assembly techniques.
DMT 62B SolidWorks: Top-Down Design and Advanced System Tools
4 Units
Prerequisite: Any DMT 61A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
Advanced 3D Solid Modeling techniques using SolidWorks. Emphasis is on Advanced Assembly Mates, Large Assembly Management Tools, and Top-Down Design. In addition, time is given to safe and proper development of new Solid Models and Drawing Documents from legacy solid models, using so-called Top- Down Assembly techniques.
DMT 62C SolidWorks: Top-Down Design and Advanced System Tools
4 Units
Prerequisite: Any DMT 61A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
Advanced 3D Solid Modeling techniques using SolidWorks. Emphasis is on Advanced Assembly Mates, Large Assembly Management Tools, and Top-Down Design. In addition, time is given to safe and proper development of new Solid Models and Drawing Documents from legacy solid models, using so-called Top- Down Assembly techniques.
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2O21-2O22 DE ANZA COLLEGE CATALOG
4 Units
DMT 62D SolidWorks: Top-Down Design and 4 Units Advanced System Tools
Prerequisite: Any DMT 61A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
Advanced 3D Solid Modeling techniques using SolidWorks. Emphasis is on Advanced Assembly Mates, Large Assembly Management Tools, and Top-Down Design. In addition, time is given to safe and proper development of new Solid Models and Drawing Documents from legacy solid models, using so-called Top- Down Assembly techniques.
DMT 62E SolidWorks: Top-Down Design and 4 Units Advanced System Tools
Prerequisite: Any DMT 61A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
Advanced 3D Solid Modeling techniques using SolidWorks. Emphasis is on Advanced Assembly Mates, Large Assembly Management Tools, and Top-Down Design. In addition, time is given to safe and proper development of new Solid Models and Drawing Documents from legacy solid models, using so-called Top- Down Assembly techniques.
DMT 63A SolidWorks: Surface Modeling 4 Units
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
Surface design using SolidWorks software to create organic 3D shapes that follow processed-based (or task-based) approach to modeling. Application of multifaceted surfaces features in designing product models and molds for industry.
DMT 63B SolidWorks: Surface Modeling 4 Units
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
Surface design using SolidWorks software to create organic 3D shapes that follow processed-based (or task-based) approach to modeling. Application of multifaceted surfaces features in designing product models and molds for industry.
DMT 63C SolidWorks: Surface Modeling 4 Units
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
Surface design using SolidWorks software to create organic 3D shapes that follow processed-based (or task-based) approach to modeling. Application of multifaceted surfaces features in designing product models and molds for industry.
DMT 63D SolidWorks: Surface Modeling 4 Units
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
Surface design using SolidWorks software to create organic 3D shapes that follow processed-based (or task-based) approach to modeling. Application of multifaceted surfaces features in designing product models and molds for industry.
DMT 63E SolidWorks: Surface Modeling 4 Units
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
Surface design using SolidWorks software to create organic 3D shapes that follow processed-based (or task-based) approach to modeling. Application of multifaceted surfaces features in designing product models and molds for industry.
DMT 64A SolidWorks Simulation 4 Units (Finite Element Analysis)
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
This course covers the application of SolidWorks Simulation using Finite Element Analysis (FEA) to validate and optimize 3D models by measuring stress and displacement distributions of new designs through simulating responses to structural and thermal loads.
DMT 64B SolidWorks Simulation 4 Units (Finite Element Analysis)
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
This course covers the application of SolidWorks Simulation using Finite Element Analysis (FEA) to validate and optimize 3D models by measuring stress and displacement distributions of new designs through simulating responses to structural and thermal loads.
DMT 64C SolidWorks Simulation 4 Units (Finite Element Analysis)
Prerequisite: Any DMT 60A-E course.
Two hours lecture, six hours laboratory (96 hours total per quarter).
This course covers the application of SolidWorks Simulation using Finite Element Analysis (FEA) to validate and optimize 3D models by measuring stress and displacement distributions of new designs through simulating responses to structural and thermal loads.






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