|
|
|
|
|
|
|
|
|
|
Course Criteria
Add courses to your favorites to save, share, and find your best transfer school.
-
3.00 Credits
(formerly FIN-H204) 3 cr. Prerequisite: BFN*H201, Real Estate License or permission of Division Director. The topics studied in this course include fundamentals of mortgage, deeds, loan applications, real estate credit, mortgage markets, and current legislation affecting real estate finance.
-
3.00 Credits
(formerly FIN-H207) 3 cr. This course examines the legal Environment of real estate including contracts, deeds, instruments, easements, estates in land, zoning, tenance, liens, foreclosure, transfers of titles, leases, and relevant court rulings. (LGL*H104 is a substitution for this course.)
-
3.00 Credits
3 cr. Prerequisite: ARC*H133. Introduction to two-dimensional computer-aided drafting. Included are drawing and editing of elementary geometric entities, dimensioning and plotting. Also, architectural examples such as floor plans, elevations, building structures, site plans and contour maps will be studied. One class hour and four laboratory hours weekly.
-
3.00 Credits
3 cr. Prerequisites: Concurrent enrollment as CAD/D major, CAD*H200, 220, "C"or better, and approval of Department Chairperson. Corequisites: CAD-H2240, CAD*H275. The CAD/D Co-op is a supervised work experience in a job setting related to the student's major. This fourth semester course is a specialization in architectural, civil, electrical, manufacturing or mechanical CAD/D and consists of: 1. A two-hour Professional Development Workshop 2. A minimum 225-hour Cooperative Work Experience 3. A weekly Co-op Seminar with faculty facilitator
-
4.00 Credits
4 cr. Prerequisite: CAD*H220 or approval of the instructor. This course is a continuation of Computer-Aided Design I using SolidWorks parametric design software. It focuses on modeling techniques used in advanced applications such as sweeps, lofts, sheet metal applications, along with top-down assembly modeling. Advanced tolerance analysis, beam stresses, and the design modeling of molds and dies and advance topics in rapid prototyping are also covered. The course includes a major group design project and presentation. Two class hours and four lab hours weekly.
-
3.00 Credits
3 cr. (formerly CAD-H1203) Co-requisite: MAT*H137. Introduction to two-dimensional computer-aided drafting using Autocad. Included are drawing and editing of elementary geometric entities, dimensioning and plotting. Also, mechanical drafting problems and examples will be studied. One class hour and four laboratory hours weekly.
-
4.00 Credits
4 cr (formerly CAD-H2210) Prerequisite: CAD*H150. The primary focus of this course is three dimensional geometric computer modeling using AutoCAD. Students will study the geometric construction and development of wireframe, surface, solid, and assembled solid models. They will also develop 2D orthographic drawings including sectional and auxiliary views from solid models. In addition, rendering to produce picture quality images of the various models will be covered. Mass property analysis and an introduction to the descriptive geometry may also be included. Two class hours and four laboratory hours weekly.
-
3.00 Credits
3 cr. (formerly CAD-H2230) Prerequisite: CAD*H150 or approval of the instructor. Corequisite: MAT*H172 or approval of the instructor. Introduction to the paperless computer based design process using modern parametric 3-D design software (SolidWorks). The course focuses on parametric modeling, and includes topics such as the design process, design engineering, assembly modeling, mechanism analysis, rapid prototyping, team design, geometric dimensioning and tolerancing, and the analysis of tolerance stickups. Students will participate in individual and group design projects as appropriate. One class hour and four lab hours weekly.
-
4.00 Credits
4 cr. (formerly CAD-H2250) Prerequisite: CAD*H200. CAD*H200 or experience in 3D computer modeling. This course will guide the student through the world of three-dimensional presentation. The student will create photo realistic still images, animated assemblies, camera fly-bys, robotic motion, and dynamic life-like animated presentations The concepts covered in this course can be applied to a variety of engineering disciplines. 6 contact hours (2 lecture and 4 laboratory)
-
3.00 Credits
3 cr. (formerly CAD*H2270) Prerequisite: CAD*H200, MAT*H172. This course is an introduction to the mechanical design process used to develop intelligent product models that can be used in Computer Integrated Manufacturing (CIM). The students will gain an understanding of the basic principals of 3D solid modeling, parametric relationships, and controlling design intent and object dependencies. Students will develop complete product designs, outputting 3D solid and sheet metal parts, tolerance analysis, family tables and assembly models, related detail and assembly drawings, and prototypes. 4 contact hours (2 lecture and 2 laboratory)
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Privacy Statement
|
Terms of Use
|
Institutional Membership Information
|
About AcademyOne
Copyright 2006 - 2025 AcademyOne, Inc.
|
|
|