DANC 37A Theory and Technique of Jazz Dance I
1 Unit
DMT 54 3D Printing/Additive Manufacturing: 4 Units Theory and Practice
Prerequisite: DMT 53.
Four hours lecture (48 hours total per quarter).
A focus on design considerations and rapid prototyping applications of Additive Manufacturing (AM), commonly known as 3D Printing. Using a combination of lecture and hands-on projects, students will explore the design and material considerations within AM and will configure AM systems and build prototypes and functional parts. Guest lecturers from the AM industry will provide key insights and best practices across a wide array of AM technologies. Students are expected to have a fundamental understanding of at least one parametric modeling CAD system to produce functional designs.
DMT 55 Survey of Design and Manufacturing 4 Units Processes/Modern Fabrication
Advisory: EWRT 200 and READ 200, or ESL 261, 262, and 263.
Four hours lecture (48 hours total per quarter).
This survey course is designed to introduce students to both design, manufacturing and modern fabrication, by means of demonstrations, with the following areas of emphasis: manufacturing processes, equipment and systems, design for manufacturing, measurement tools, blueprint reading, rapid prototyping (3D printers), CNC machine set-up, CNC machine programming (lathe and mill), CAD/CAM and quality control using geometric dimensioning and tolerancing (GD&T). This hands on, team based course is designed to provide students with instruction and skills through applied real world experience to enable insight as to how products are designed and fabricated. Students will be able to identify the terminology of each area, examine each technique and skill requirement, and gain a fundamental understanding of diverse industry processes.
DMT 56 3D Printing for AM Support 5 Units Technicians and Operators
Prerequisite: DMT 54 and DMT 60A (may be taken concurrently) or DMT 65A (may be taken concurrently) or equivalent.
Five hours lecture (60 hours total per quarter).
The objective of this course is to present a comprehensive overview of the creation and operation of an Additive Manufacturing facility. Topics include specifying, installing, and operating different printer technologies, managing production 3D print queues, selecting material/technology for a print job, optimizing build configurations for each technology, employee safety, customer management, and other technical and business considerations.
DMT 57 Design for Additive Manufacturing (DfAM) 4 Units
Prerequisite: DMT 54 and DMT 60A (may be taken concurrently) or DMT 65A (may be taken concurrently) or equivalent.
Four hours lecture (48 hours total per quarter).
This course follows on a series of Additive Manufacturing (AM) classes beginning with DMT 53. The objective of this course is to present a comprehensive overview of industrial AM or 3D Printing DfAM principals. The course will cover implementation and operation options in industry production and rapid prototyping. Students will understand and be able to take full advantage of unique capabilities from AM competencies, DfAM methods, tools, and available processes. Typical DfAM methods or tools include topology optimization, design for multiscale structures (lattice or cellular structures), multimaterial design, mass customization, part consolidation, and other design methods which can make use of AM-enabled features.
DMT 60A 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 60B 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 60C 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).
D
(See general education pages for the requirements this course meets.) Advisory: EWRT 211 and READ 211, or ESL 272 and 273.
Three hours laboratory (36 hours total per quarter).
(This course is included in the Dance Technique Family of activity courses. Please see the rules on “Repeating Courses” in the College Policies section of the catalog.)
Introduction to the discipline and creative art of jazz dance. Body conditioning, exposure to the history of major American artists, and their works. The development of a working vocabulary; and practice of elementary jazz dance techniques.
DANC 37B Theory and Technique of Jazz Dance II 1 Unit
(See general education pages for the requirements this course meets.) Prerequisite: DANC 37A.
Advisory: EWRT 211 and READ 211, or ESL 272 and 273.
Three hours laboratory (36 hours total per quarter).
(This course is included in the Dance Technique Family of activity courses. Please see the rules on “Repeating Courses” in the College Policies section of the catalog.)
Exploring elements of time, space, shape and motion as related to jazz dance on a Intermediate level. Body conditioning to increase functional range of motion and core muscular strength. Exposure to major international influences, artists, and works.
DANC 37C Theory and Technique of Jazz Dance III 1 Unit
(Formerly DANC 57C.)
(See general education pages for the requirements this course meets.) Prerequisite: DANC 37B.
Advisory: EWRT 211 and READ 211, or ESL 272 and 273.
Three hours laboratory (36 hours total per quarter).
(This course is included in the Dance Technique Family of activity courses. Please see the rules on “Repeating Courses” in the College Policies section of the catalog.)
Exploring elements of time, space, shape and motion as related to Advanced jazz dance. Body conditioning, exposure to major international influences, artists, and works. The practice and development of a working of jazz dance technical, vocabulary at an advanced level.
DANC 38A Appreciation of Dance 4 Units
(See general education pages for the requirements this course meets.)
Advisory: EWRT 211 and READ 211, or ESL 272 and 273.
Four hours lecture (48 hours total per quarter).
This course is a study of dance as a cultural phenomenon, form of communication, socialization, recreation, artistic expression, and entertainment. Students will explore the history, traditions and works of outstanding artists.
Design & Manufacturing Technologies
DMT 52 Geometric Dimensioning and 2 Units Tolerancing: CAD Applications
Advisory: EWRT 200 and READ 200, or ESL 261, 262, and 263.
One hour lecture, three hours laboratory (48 hours total per quarter).
This course will focus on geometric dimensioning and tolerancing, utilizing ASME Y14.5M-2009 standards as they apply to engineering and manufacturing drawings. CAD drawings will be completed from solid models using multiple datums, symbols, feature control frames, and other GD&T specifications.
All courses are for unit credit and apply to a De Anza associate degree unless otherwise noted.
 DMT 53
3D Printing, Reverse Engineering and Rapid Prototyping: Strategies in Industry
4 Units
Advisory: EWRT 200 and READ 200, or ESL 261, 262, and 263.
Four hours lecture (48 hours total per quarter).
The objective of this course is to present a comprehensive overview of 3D Printing, spanning from fundamentals to applications and technology trends. Participants will learn the fundamentals of (AM) Additive Manufacturing/3D Printing of polymers, metals, composites, and biomaterials, and will realize how process capabilities (rate, cost, quality) are determined by the material characteristics, process parameters, and machine designs. Application areas including aerospace components, electronics, high-tech, medical devices, and consumer products will be discussed by means of detailed examples and case studies. Particular emphasis will be placed on concepts of industry applications, and related design principles and process standards. In class sessions will run live demonstrations with state- of-the-art industry grade 3D Printers, 3D Laser scanners and reverse engineering tools. Participants will understand how to design, fabricate, and measure test parts, and explore Additive Manufacturing process limits as well as appropriate applications of these technologies.
2O21-2O22 DE ANZA COLLEGE CATALOG
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