Prerequisite: CAD and consent of instructor. The student will be employed in a supervised situation under the guidance of a qualified coordinator. During the co-op internship period, the student will identify and describe, through reports, technical problems encountered on the job. This course is designed to build upon the foundation skills learned in Animation Design.
Students will develop additional skills to create computer animations and models. Emphasis will be on character modeling, rigging and animation. Students will create animations for various applications for architectural, engineering, gaming, scientific and legal industries; crime scene reconstruction; and machine simulation.
Refer to current Schedule of Classes for software version s. This course will cover the principles and techniques of creating parts in three dimensions and the basics of generative surface design. Emphasis is also placed on generation of views, text, dimensions and assembly techniques. Some of the topics include: sketcher, part design, drafting, complex and multiple sketch parts, assembly design and generative surface design.
The student will use computer hardware and software to solve engineering-related problems using Computer Aided Engineering techniques CAE. This is an introductory course to NX software.
Practical applications of parametric modeling are incorporated into this product oriented class. The course also includes knowledgeware, use of reference elements, assembly, relational formulas, reverse engineering and rapid prototyping. The students will learn the techniques and concepts of two-dimensional and three-dimensional kinematics.
The course involves geometric modeling, kinematic modeling and simulation of kinematic mechanisms, generation of traces and numerical outputs. The course also includes the study of multitude of joints and their limitations, analysis, modification and management of kinematic mechanisms.
The student will complete a minimum of 3 credit hours in each of the following areas from specific General Education courses. Courses that satisfy these categories are in the lists of General Education Distribution Requirements.
The Written Communication requirement should be completed prior to the completion of 30 credit hours. Send Page to Printer. Download Page PDF. Many four-year institutions are developing options such as Bachelor of Technology degrees that facilitate the transfer of students from technical programs.
For information relative to this type of option, students should contact the counseling office on campus. Career selection seminars are available to familiarize the student with the variety of job opportunities that exist and permit the student to make an intelligent selection of a specific occupational field of study.
During the seminar, students prepare a personalized plan of study to develop the necessary skills and capabilities for a chosen career. This structure permits students to solidify their interests and test their ability prior to making a final career selection and enables them to switch from one technical major to another with a minimum loss of credit and time.
Applied sciences cooperative work experiences at Oakland Community College include a planned combination of related work experience in business and industry, supplemented by specially designed instructional activities. These internships are part of many occupationally-oriented educational programs and provide special experiences through agreement among the employer, Oakland Community College and the student. The Associate in Arts Degree emphasizes foreign languages, literature, science, mathematics, music, economics, philosophy, sociology and psychology.
Students elect the Arts Degree as a basis for further study toward a bachelor degree, as a basis for employment in a variety of positions which require a broad college education and for cultural enrichment. The Arts Degree may serve as the base for baccalaureate-level studies or as the preparation for graduate and professional degrees e. Students in this program seeking MTA endorsement should work closely with an OCC counselor and must earn at least a 2.
Given a work description or isometric view of a simple object, the student will be able to completely describe its shape in orthographic multi-view projection, and creation of assembly drawings This course develops skills in 3-D wireframe, surface, and solid modeling techniques. Prerequisite: CAD and consent of instructor.
The student will be employed in a supervised situation under the guidance of a qualified coordinator. During the co-op internship period, the student will identify and describe, through reports, technical problems encountered on the job.
This course is designed to build upon the foundation skills learned in Animation Design. Students will develop additional skills to create computer animations and models. Emphasis will be on character modeling, rigging and animation.
Students will create animations for various applications for architectural, engineering, gaming, scientific and legal industries; crime scene reconstruction; and machine simulation. Refer to current Schedule of Classes for software version s. This course will cover the principles and techniques of creating parts in three dimensions and the basics of generative surface design.
Emphasis is also placed on generation of views, text, dimensions and assembly techniques. Some of the topics include: sketcher, part design, drafting, complex and multiple sketch parts, assembly design and generative surface design. The student will use computer hardware and software to solve engineering-related problems using Computer Aided Engineering techniques CAE.
This is an introductory course to NX software. Practical applications of parametric modeling are incorporated into this product oriented class. The course also includes knowledgeware, use of reference elements, assembly, relational formulas, reverse engineering and rapid prototyping. The students will learn the techniques and concepts of two-dimensional and three-dimensional kinematics.
The course involves geometric modeling, kinematic modeling and simulation of kinematic mechanisms, generation of traces and numerical outputs.
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