2019 - 2020 College Catalog

Apr 30, 2024

2019 - 2020 College Catalog [ARCHIVED CATALOG]

Course Descriptions

Course Filter
Filter this list of courses using course prefix, course code, keywords or any combination.
Prefix:	Code or Number:	Keyword or Phrase:
Choose Course Prefix	Choose Course Number	Choose Keyword
Find whole word or phrase only.


Accounting
	ACCT 115 - Financial Accounting Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): None Restriction(s): None Corequisite(s): None Basic accounting concepts and principles are introduced. Preparation of financial statements and maintenance of accounting records through the accounting cycle are emphasized. Inventory evaluation; principles of internal control; accounting for the acquisition, depreciation, and disposal of fixed assets; and current liabilities, including an overview of payroll procedures, are included. Student Learning Outcomes of the Course: Students will apply generally accepted basic accounting procedures, concepts, principles, formats, terms, and philosophies to financial statements and business transactions. Students will prepare in proper format an income statement. Students will prepare in proper format a classified balance sheet. Students will prepare in proper format general journal entries to record different transactions. Students will prepare in proper format adjusting entries. Students will prepare in proper format closing entries. Students will calculate inventory using the different methods and systems. Students will learn different methods of depreciation calculations and calculate gains and losses on disposal of fixed assets.
	ACCT 125 - Managerial Accounting Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): ACCT 115 Restriction(s): None Corequisite(s): None A continuation of the basic accounting principles, course topics include the nature of corporations and related equity and income reporting issues, long-term liabilities, statement of cash flow, nature and behavior of manufacturing cost, introduction to cost accounting concepts and systems, cost-volume profit relationships, and an introduction to budgetary planning. Student Learning Outcomes of the Course: Students will prepare entries to record transactions relating to the corporation. Students will prepare entries to record transactions relating to long term liabilities. Students will prepare a cash flow statement. Students will record transactions, calculate job costs and budget using the concepts of cost and managerial accounting. Students will calculate the cost of manufacturing jobs using job order processing, process costing and activity based systems. Students will prepare the different budgets associated with manufacturing accounting, e.g sales, production, etc.
	ACCT 150 - Accounting for Small Business Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course considers the accounting and reporting aspects which apply to the operation of a small business. Material covered includes those topics that a business owner needs to know in order to maintain records and control over the different components of his/her business.
	ACCT 210 - Intermediate Accounting I Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): Grade of C or better in ACCT 125 Restriction(s): None Corequisite(s): None This course is designed for students who wish to pursue accounting beyond the introductory level. After a review of basic accounting procedures, we shall focus on intermediate accounting theory including measuring and reporting accounting income, analysis of working capital, receivables, inventory cost and valuation procedures, current liabilities and investments. Student Learning Outcomes of the Course: Demonstrate mastery of Generally Accepted Accounting Principles (GAAP) as well as other concepts, conventions, practices and procedures used in financial accounting. Apply GAAP and other conventions and procedures correctly to simple and complex business transactions. Students will demonstrate the ability to perform proper transactional journal entries, adjusting entries & closing entries. Students will demonstrate the ability to prepare classified balance sheets, complex multi-step income statements and cash flow statements. Students will demonstrate the proper calculations of inventory using various methods, the calculation of net revenue, adjusted expenses and net income.
	ACCT 220 - Intermediate Accounting II Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): Grade of C or better in ACCT 210 Restriction(s): None Corequisite(s): None A continuation of intermediate accounting, topics include plant and equipment (acquisition, depreciation, revaluations), intangibles, long-term liabilities, stock holders’ equity (paid-in capital, retained earnings), and analytical processes (comparative data, special ratios and measurements, errors and their correction, and price level changes). Student Learning Outcomes of the Course: To master generally accepted accounting concepts, conventions, practices, and procedures. Students will demonstrate the ability to perform proper transactional journal entries associated with stockholders equity transactions. Students will demonstrate the ability to calculate employee/employer payroll and record the appropriate payroll journal entries. Students will demonstrate the ability to discern the proper accounting treatment of contingent liabilities. Students will demonstrate the ability to discern the proper accounting treatment and journal entries associated with leases. Students will demonstrate the ability to calculate and record the issuance and purchase of bonds and notes payable
	ACCT 245 - Computerized Accounting Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): ACCT 125 and CITA 110 Restriction(s): None Corequisite(s): None Students will be taken through the complete accounting cycle from the beginning (purchases, sales, and other basic transactions, recording invoices, payments, etc.) to the final work product (a complete set of financial statements) using computerized accounting package. Students will gain an understanding of the patterns of flow of computerized accounting data and information in a business to include computerized general ledger, subsidiary ledgers and payroll applications. Student Learning Outcomes of the Course: To develop a basic understanding of the aspects of a computerized accounting system. Students will prepare and set up various type of service and retail companies. Students will prepare and set up various type of service and retail companies. Students will produce financial statements for these companies. Students will prepare and set up various type of service and retail companies which includes analyzing accounts, journalizing transactions, preparing adjusting and closing entries. Students will prepare and set up various type of service and retail companies that include setting up inventory, payroll, cash receipts and disbursements.
	ACCT 250 - Federal Income Tax Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): ACCT 125 Restriction(s): None Corequisite(s): None This course covers Federal Income Tax Law, its applications to individual taxpayers and practice in preparing tax returns. Topics include: introduction to the history of tax; rates and exemptions; income determination; recognition of gains and losses; deductions; tax planning and an introduction to estate and gift taxes. Student Learning Outcomes of the Course: Students will identify the principles of federal taxation of income. Students will compare the practices available to achieve maximum understanding of tax legislation. Students will develop an understanding of the procedures related to proper fundamentals of tax preparation and reporting, income, credits and deductions. Students will prepare forms and schedules 1040, 1040-ES, 1040-EZ, 2441, 8863, 5695, 4868, 2106, and 4562 and Schedules A, B, C, E, F, SE, and EIC. Students will complete and file an actual current year tax return
	ACCT 310 - Accounting Information Systems Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): Grade of C or better in ACCT 125 or permission of the instructor Restriction(s): None Corequisite(s): None This course is designed to study elements of accounting information systems. Conceptual modeling, implementation of accounting transaction processing systems, enterprise value chains, business processes, documentations, and control requirements are emphasized. Student Learning Outcomes of the Course: Students will study business processes and design and ascertain that accounting systems contain the proper controls and risk protection measures. Students will trace accounting systems move to resource planning systems. Students will design accounting systems using database management software and data flow diagrams. Students will design system flowcharts to map out specific accounting functions. Students will study internal control issues such as proper usage of passwords and other access controls and the importance of systematic controls
	ACCT 350 - Federal Income Tax Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): ACCT 125 or ACCT 210 Restriction(s): None Corequisite(s): None This course covers Federal Income Tax Law, its applications to individual taxpayers and practice in preparing tax returns. Topics include: introduction to the history of tax; rates and exemptions; income determination; recognition of gains and losses; deductions; tax planning and an introduction to estate and gift taxes. Student Learning Outcomes of the Course: Students will identify the principles of federal taxation of income and compare the practices available to achieve maximum understanding of tax legislation. Students will develop an understanding of the procedures related to proper fundamentals of tax preparation and reporting, income, credits and deductions. Students will prepare Forms 1040, 1040-ES, 1040-EZ, 2441, 8863, 5695, 4868, 2106, and 4562 and Schedules A, B, C, E, F, SE, and EIC. Students will complete and file an actual current year tax return. Students will complete a research project.
	ACCT 400 - Auditing Class Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): Grade of C or better in ACCT 220 or permission of the instructor Restriction(s): None Corequisite(s): None This course is designed to provide the student with a basic understanding of all aspects of auditing. These include accepting and planning the audit, evaluating internal controls, verifying account balances and financial statement assertions, reporting on audited financial statements, as well as auditing standards, and the legal liabilities and professional and personal ethical responsibilities of auditors. Student Learning Outcomes of the Course: Students will demonstrate the ability to define and display the proper usage of audit specific terminology. Students will demonstrate the ability to explain the role of the auditor, the hierarchy of auditing standards and the associated governing bodies. Students will demonstrate proper audit techniques for each of the significant balance sheet areas. Students will demonstrate the ability to differentiate between different types of assurance services and their appropriate usage. Student will demonstrate the ability to assess the different types of risk and identify weaknesses in internal control and offer suggestions for remediation. Students will demonstrate the ability to select and perform appropriate audit procedures for major auditable areas.
	ACCT 410 - Information Systems Audit and Control Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): Grade of C or better in ACCT 220 or permission of the instructor Restriction(s): None Corequisite(s): None This course is designed as the capstone course to the Information Systems Auditing curriculum. This will include topics covering but not limited to: Standards & Guidelines for IS Auditing, Internal Control Concepts, IT Audit Planning Process, IT Audit Management, Audit Evidence Process, Support Tools & Frameworks, Technical Infrastructure and Service Center Management. Student Learning Outcomes of the Course: Students will be able to identify auditing standards, auditing ethics, certification boards and examinations associated with the auditing profession. Students will be able to identify the PDC model of controls as well as identify specific controls associated with each type as well as identify the auditing standards associated with evidence. Students will be able to identify the components of the audit approach under the CobiT model Students will be able to identify the role of management and proper IT governance in mitigating risk. Students will be able to identify risks and controls associated with the major IT auditing categories. Students will be able to demonstrate usage of a CAAT to complete an audit case study. Students will be able to identify appropriate audit procedures to plan and execute a proper IS audit
Architectural Engineering Construction Technology
	AECT 100 - Architecture & Construction Orientation Credit Hours: 1 Lecture Hours: 1 Laboratory Hours: 0 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course is an introduction to architectural and construction technology as fields of study and careers. Topics include a review of academic policies and requirements for successful completion of the program, and a review of techniques, procedures, and systems in architecture and construction. The course explores career opportunities in residential, commercial, and industrial industries, and students will investigate areas of continued study at the upper-division level, i.e., transfer. The use of spreadsheets (Microsoft Excel) will also be covered. Student Learning Outcomes of the Course: Students will meet Architects and Construction Managers in both a guest lecture and actual job settings. Students will be shown examples of actual plans and specifications. Students will work in groups and individually on basic Construction/Design terminology. Students will work in groups and individually on units. Students will generate EXCEL spreadsheets. Discussion &/or guest lectures: Student Arch. & Construction Clubs; Learning Center; Student Health Services;
	AECT 110 - Construction Materials Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course gives students an overview of the many construction materials available in the industry today. This is an introductory course in the physical properties, design considerations, and practical applications of engineered structural components and common finish materials as they relate to the entire building system. Typical manufacturing processes and product standards are also discussed. Student Learning Outcomes of the Course: Students will witness soil lab experiments and analyze the data. Team Based Learning will be used. Actual testing done in CNST 150 . Students will witness concrete testing experiments and analyze the data. Students will work in groups to analyze actual concrete plans & specs. Team Based Learning will be used. Actual testing & mock-up done in CNST 150 . Students will witness masonry testing experiments and analyze the data. Students will work in groups to analyze actual masonry plans & specs. Team Based Learning will be used. Actual testing & mock-up done in CNST 150 . Students will work in groups to analyze actual steel plans & specs. Team Based Learning will be used. Actual testing & mock-up done in CNST 210 . Students will view and accurately identify wood products and/or graphic representations and accurately answer questions as to how they are used in the building industry when exposed to various conditions. Students will view products and/or graphic representations, and accurately identify the products by sight, as well as determine the best uses and limitations of when exposed to varying conditions. Students will identify various adhesives and sealants, as well as determine the best uses and limitations of these products when exposed to varying conditions. Students will be able to accurately compare and contrast advantages/disadvantages of using the various products.
	AECT 150 - Statics & Strengths of Materials Credit Hours: 3 Lecture Hours: 2 Laboratory Hours: 2 Prerequisite(s): MATH 128 or higher Restriction(s): Construction Technology, or Construction Mgmt:Design&Build, or Architectural Design&Build, or Mechatronics, or Construction Management BT majors only Corequisite(s): None Selected topics include: analysis of basic forces, conditions for equilibrium, truss analysis, stress-strain relationships, riveted and bolted connections, investigation of simple beams by shear and moment diagrams, steel and timber beam analysis and design, and simple column analysis and design. Student Learning Outcomes of the Course: The students will generate load tracing for residential, commercial, & heavy construction projects. Student work will be individually. Students will work in groups to learn the properties for different materials through laboratory experimentation. The students will incorporate this data into structural design. The students will generate load tracing for residential, commercial, & heavy construction projects. Students will work in groups. The students will learn and use the software 3d Lift Plan.com residential, commercial, & heavy construction projects. Students will research applicable codes and specifications for different types of structures. Students will learn about the role of the structural engineer. Students will learn act professionally in both lecture and lab settings. ACCE Student Learning Outcome (SLO) # 12: Recognize the basic principles of structural design.
	AECT 250 - Struc. Steel & Reinf. Concrete Credit Hours: 4 Lecture Hours: 3 Laboratory Hours: 2 Prerequisite(s): AECT 210 Restriction(s): None Corequisite(s): None Structural steel framing design using LRFD and design of reinforced concrete members using ACI-318 code are analyzed. Computer applications and a comprehensive design project of steel and concrete framed buildings are required.
	AECT 280 - Mechanical, Electrical, and Plumbing Credit Hours: 3 Lecture Hours: 2 Laboratory Hours: 3 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course presents the fundamentals of mechanical and electrical equipment requirements for buildings. Topics include design of water supply and sanitary systems; environmental comfort (heat loss, heat gain, temperature and humidity); principles of warm air, steam, hot-water, radiant-panel and electrical heating systems; air- conditioning systems; planning and layout of warm-air and air-conditioning sheet metal and hot-water heating piping for residential and commercial building; alternate energy systems both active and passive; basic design and installation of residential electrical circuits; symbols and electrical theory; and basic code elements. Student Learning Outcomes of the Course: Students will learn mechanical, electrical and plumbing symbols and drawing identifications, through lecture, textbook reading assignments, and during interactive lab sessions. Students will learn mechanical, electrical and plumbing system components through lecture, textbook reading assignments, and during interactive lab sessions. Students will demonstrate their knowledge of mechanical, electrical and plumbing systems through effectively reading blueprints and sketching various systems and components. Students will demonstrate their knowledge of mechanical, electrical and plumbing systems through effectively reading blueprints and sketching various systems and components. Students will express an understanding of codes when evaluating the design of plumbing systems.
	AECT 300 - Design-Build Management Credit Hours: 3 Lecture Hours: 2 Laboratory Hours: 3 Prerequisite(s): AECT 400 Restriction(s): Junior/Senior level and Construction Mgmt: Design&Build or Construction Management BT majors only Corequisite(s): None The fundamentals of design-build projects and delivery systems are introduced. Methods of partnering/joint venturing for design-build developments are also reviewed in detail. Students will learn how an organization can be structured to efficiently manage a team design-build approach. Processes that involve both design and construction parties, such as; RFIs, Submittals, Quality Control (QC) Reports, Issuance Of Draft/Construction & Final (As-Built) Design Documents, Pre-Construction Planning, Activity Status Reporting, Project Closeout, and other related topics are included. Team management approaches, procedures and policies, and operations are also presented. Student Learning Outcomes of the Course: Students will learn and research The Design Build Method and be able to implement its practices. Students will work together on projects from the initial stages through completion. Students will work on projects where use of these objectives will be integrated in semester field projects. Students will successfully manage construction activities in a secondary lab setting. Students will demonstrate an understanding of excellence of quality construction through their projects and studies.
	AECT 301 - Construction Mgt Competition Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): Permission of Instructor required. Restriction(s): Restricted to Construction and/or Architecture majors. Corequisite(s): None Students will expand on previous coursework to develop professional construction management proposals, presentations, scheduling and estimating. Proposals, presentations, schedules and estimates will be built based on real-life construction projects and scenarios. Students will expand their management skills, develop and implement documentation to be used in annual regional and national construction management competitions. All students will participate in a team and compete in an annual regional and/or national construction management competition. Student Learning Outcomes of the Course: Research and develop proper construction management proposals. Research and develop proper construction management proposal presentations. Develop proper documentation in accordance with annual request for proposals given by competition judges prior to competition. Demonstrate competency in annual regional/national competitions.
	AECT 310 - Residential Building Systems II Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): CNST 110 Restriction(s): None Corequisite(s): None This course is designed to give the student a broader based understanding of residential framing and building principles learned up to this point. Topics include mathematical aspects of framing problems, principles of truss constructions, specific “real life” framing examples, residential framing member sizing, sustainable construction techniques and alternative construction methods. Student Learning Outcomes of the Course: Students will accurately solve various building problems utilizing mathematical concepts. Given a plan, the student will correctly calculate various rafter lengths, ridge lengths and ridge post heights. Students will accurately identify methods to minimize lumber usage without compromising structural integrity. Students will demonstrate understanding of the design and function of basic trusses. Students will view case studies and /or blueprints and be able to accurately answer questions related to building construction. Students will research and report on a residential construction technique that is considered to be non-standard.
	AECT 320 - Mechanical Systems & Balancing Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): AECT 280 Restriction(s): Junior or higher class level Corequisite(s): None Efficient operation of a building’s mechanical systems/components, and the balancing of HVAC loads for the comfort of the occupants, are key components of this course. Students will be exposed to testing and diagnostic equipment/processes commonly used in industry today. Additionally, trouble shooting, preventative maintenance, energy efficiency, potable water systems and emergency issues will be studied. Cross listed with FMGT 320 . Student Learning Outcomes of the Course: The student will perform necessary calculations to identify associated costs and savings of various mechanical systems The student will accurately describe techniques to remedy various load balancing problems The student will demonstrate proficiency by flowcharting solutions to various problems involving maintenance and trouble-shooting Students will accurately describe methods of resolving potential emergency problems as they relate to a facility’s mechanical systems
	AECT 330 - Residential Millwork Credit Hours: 3 Lecture Hours: 2 Laboratory Hours: 4 Prerequisite(s): CNST 110 Restriction(s): Junior status; Construction Management BT major Corequisite(s): None The more advanced areas of finish carpentry are studied. Practices of complicated interior trim, advanced stair construction and hand-rail systems, as well as a variety of other millwork applications are covered. The course includes some laboratory exercises applying these skills. Student Learning Outcomes of the Course: Students will layout specific geometric shapes using a compass and straightedge to tolerances as required by the instructor. Students will accurately identify, by sight, various common moldings. Students will demonstrate the ability to cut and fit common moldings to fit with tolerances dictated by the instructor. Students will accurately identify stair and balustrade components, calculate stairs to within specific tolerances as required by the instructor. Students will accurately identify components porch construction and demonstrate knowledge of design as it relates to air movement and decay as well as proper material selection. Students will demonstrate the ability to create a custom cornice or layered molding project by layering moldings. Students will be required to build the perform to specific tolerances. Students will be required to demonstrate knowledge of producing curved moldings using a variety of techniques. Moldings will be required to be manufactured to specific tolerances. Students will accurately identify several of the more common types of architecture as required by the instructor. Students will demonstrate the ability to perform an in-depth research project as directed by the instructor such as: Residential millwork applications to a commercial building frame Design (profiles, detail drawings, material type, etc.) estimate and plan millwork for a comprehensive project, this may involve execution of a project. Historical preservation/restoration
	AECT 340 - Estimating and Planning II Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 3 Prerequisite(s): CNST 260 , AECT 110 , CNST 110 , CNST 150 or CNST 210 , and MATH 128 or higher level Restriction(s): None Corequisite(s): None This course is a continuation of CNST 260 - Estimating and Planning I . The course will delve into advanced fundamentals of construction estimating and planning. An in depth look into real life commercial, industrial, residential, and heavy civil projects for reference. Topics including but not limited to: bidding, evaluation of subcontracts, budgeting, square footage costs, quantity take off, advanced labor and work crew estimations, CPM scheduling, resource loading, updating and tasking of construction schedules. A study of Lean construction and project integration of Lean. Personal computer usage in spreadsheets, time management software and estimating software will be an integral part of the course. Student Learning Outcomes of the Course: Students will research and use different types of estimating & planning software in all areas of construction. Students will use real drawings to determine proper quantity take off in all areas of construction. Students will research the process in which the construction process is scheduled with work crews and labor forces. Students will learn and be able to develop in depth schedules including cost loading and labor linkage.
	AECT 350 - Environmental Systems II Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): AECT 280 Restriction(s): None Corequisite(s): None This course focuses on engineering and design methods and strategies applied to building acoustics and lighting. Student Learning Outcomes of the Course: Understand the basics of acoustics as applied to typical building types. Understand the basics of lighting as applied to typical building types.
	AECT 360 - Structural Theory Credit Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Prerequisite(s): AECT 150 and ARCH 110 Restriction(s): Junior and Senior level. Construction Mgmt:Design&Build, Architectural Design & Bldg, and Construction Management BT majors only. Corequisite(s): None This course covers the application of forces for analysis and design of building structures. Included are load analysis for wind and seismic conditions. Analysis of building structural systems including lateral force resisting systems, frames, arches, and trusses is also covered. Students are exposed to basic design in timber, steel, masonry, and concrete. A research project and computer applications are integrated into the course. Student Learning Outcomes of the Course: Know and understand the fundamental principles of Structural Engineering. Be able to analyze and determine any of the various types of loads typically applied to building structures, including live, dead, wind, snow and seismic. Be able to analyze and design structural components of buildings using wood, concrete, masonry and steel framing members. Usage of various computer software and Internet research. Become familiar with structural design provisions of various Building Codes.
	AECT 370 - Site Engineering Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 3 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course focuses on engineering methods and strategies applied to shaping the earth’s surface to accommodate buildings and associated construction. The course is presented in both lecture and studio format. Theory presented in lecture will be applied to the graphic solution of site engineering problems in the studio. Student Learning Outcomes of the Course: Read and graphically express landforms. Use surveying tools to collect data and create a topographic base map. Discuss how soils relate to construction and drainage. Use computer software to express and visualize existing conditions and design proposals. Perform basic storm water management calculations and Apply storm water best management practices. Understand road alignment principles. Create a basic site layout plan. Apply knowledge from the above topics to create creative grading design solutions. Understanding equipment selection and production rates Review crane types and operation
	AECT 375 - Facilities Systems & Process Piping Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): None Restriction(s): Junior or Senior level. Construction Mgmt: Design&Build, Architectural Design & Bldg, Construction Management BT, Mechatronics BT (5AB) major only. Corequisite(s): None This course presents advanced design and installation concepts for process piping and mechanical systems required for industrial and manufacturing construction applications. Topics include detailed descriptions of piping material typically found in industrial applications, why these materials are used in their applications, design considerations including thermal expansion, structural supports, ideal velocities, corrosion characteristics and other installation requirements. Also included will be process exhaust abatement systems and other large scale process systems found in several industrial and manufacturing applications. Student Learning Outcomes of the Course: Students will learn characteristics of various materials used in process piping applications including corrosion, expansion, joining methods, and quality control through lectures, textbook reading assignment and handouts. Students will learn about piping applications for various systems including chemical, process drains, process gas, high-purity water, drinking water, etc. through lectures, textbook reading assignments and handouts. Students will identify installation requirements including support, expansion loops, valves, heat trace and insulation through lectures, textbook readying assignments and handouts Students will learn about process acid, base and solvent exhaust abatement systems, DI water, chemical and gas equipment through lectures, textbook reading assignments and handouts. Students will identify various quality control requirements for high purity, drinking water, clean for oxygen service, including documentation, texting requirements, etc. through lectures, textbook reading assignments and handouts.
	AECT 380 - Career Seminar Credit Hours: 1 Lecture Hours: 0 Laboratory Hours: 2 Prerequisite(s): None Restriction(s): Junior or Senior level. Construction Mgmt:Design&Build, Construction Management BT majors only Corequisite(s): None An internship experience is necessary to complete the degree requirements in the Construction Management Option. This course prepares students for the internship and assists them towards securing appropriate employment. The development of professional resumes, cover letters, and other related communication skills are covered in detail. In addition, students will learn how to research prospective employers that match their particular career interests. Student Learning Outcomes of the Course: Students will learn what is required and expected to complete the internship including the required forms, recording time worked, binder preparation, and evaluations. Students will learn how to build technical resumes and cover letters and e-portfolios what employers look for when reviewing these documents and how to avoid common mistakes. Students will research and track progress for potential employment opportunities. Students will develop interview communication skills, proper attire, common questions and techniques, and how to avoid common mistakes.
	AECT 390 - CM Internship I Credit Hours: 12 Lecture Hours: 0 Laboratory Hours: 0 Prerequisite(s): AECT 380 Restriction(s): Junior or Senior level Corequisite(s): None This is the required internship phase of the Construction Management Degree Option. Students receive on-the-job construction experience in many facets of the workplace. Each student’s comprehension of how actual building projects are effectively developed will be significantly enhanced. In addition, interns will be introduced to numerous construction practices and methods that are commonplace within the industry. Student Learning Outcomes of the Course: In order to ensure that students are offered a true learning experience during their internships, students must encounter at least one hundred hours of duties/responsibilities within four of the below CM Silos. Field Supervision Estimating & Cost Control Scheduling & Planning Surveying / Site Layout Hands-On Building Experience Project Engineering (Project Or Plan Review/Analysis) Documentation (Field Reports, Submittals, Drawings, Specifications, Etc.) Procurement Of Materials, Subcontractors, And/Or Labor
	AECT 395 - CM Internship II Credit Hours: 3 Lecture Hours: 0 Laboratory Hours: 0 Prerequisite(s): AECT 380 Restriction(s): Junior or Senior level Corequisite(s): None This is the required internship phase of the Construction Management Degree Option. Students receive on-the-job construction experience in many facets of the workplace. Each student’s comprehension of how actual building projects are effectively developed will be significantly enhanced. In addition, interns will be introduced to numerous construction practices and methods that are commonplace within the industry. Student Learning Outcomes of the Course: In order to ensure that students are offered a true learning experience during their internships, students must encounter at least one hundred hours of duties/responsibilities within four of the below CM Silos. Field Supervision Estimating & Cost Control Scheduling & Planning Surveying / Site Layout Hands-On Building Experience Project Engineering (Project Or Plan Review/Analysis) Documentation (Field Reports, Submittals, Drawings, Specifications, Etc.) Procurement Of Materials, Subcontractors, And/Or Labor
	AECT 400 - Construction Project Management Credit Hours: 3 Lecture Hours: 2 Laboratory Hours: 3 Prerequisite(s): CNST 270 Restriction(s): None Corequisite(s): None The principles of project management are applied to case studies of actual construction projects. Topics include estimating and bidding, construction site planning, material and equipment procurement, project cost control, scheduling, coordination of subcontractors, along with resource and labor management; including pre-purchasing of materials and “Project Labor Agreement (PLAs),” are covered in detail. In addition, further experience with construction related software is applied throughout the course (MS Project, Prolog, MS Excel, CADD, and other related software). Student Learning Outcomes of the Course: Students will research and complete assignments on case studies of projects pertaining to proper and improper use(s) of Project Management Students will analyze past and present projects and use these real life projects to implement their knowledge on these items. Students will understand how to implement quality control measures, value engineering, procurement, team organization, project start-up, site planning, cost and schedule control measures, project closeout, and other related topics. Students will realize business risks associated with performing construction related work and how to successfully manage construction operations to help control this factor. Students will realistically demonstrate the project management processes that are necessary to successfully complete a complex construction development through the use of construction project management tools & software.
	AECT 410 - Building Codes & Professional Practices Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): Junior standing or permission of the instructor Restriction(s): None Corequisite(s): None This course provides a comprehensive overview of the international building code as it applies to building design and construction. Emphasis is placed on the recognition and application of the most common code provisions, particularly those that affect life safety. In addition, the legal basis for, and typical provisions of, local zoning codes are explored. Student Learning Outcomes of the Course: Students will research and complete assignments on navigating the code, case studies of code issues and projects pertaining to proper and improper use of building codes. Students will analyze past and present projects and the use of building codes during these projects. Students will research the variances of codes country to country, state to state, county to county. Students will research and develop final projects pertaining to their overall knowledge of building codes and zoning.
	AECT 415 - Sustainable Building Practices Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): AECT 280 Restriction(s): Junior Status; Construction Management BT major, or Architecture BT major Corequisite(s): None The course is concerned with environmental issues and how they ultimately impact society and building construction methodology. This will be viewed globally, regionally and locally. There will be discussion of general design, based on principles of sustainability, energy efficiency and other environmentally and ecologically friendly construction methods typically found on residential and commercial building sites. Other topics will include the impact of Leadership in Energy and Environmental Design (LEED), National Green Building Standard (NGBS), and other “green” organizations have on the building industry today. Student Learning Outcomes of the Course: Students will discuss environmental matters currently influencing the building industry. This includes correctly identifying the various issues faced in different geographic regions. Students will demonstrate this knowledge of sustainable building practices within a long-term, small group project (4-5 students) involving in-depth design of a sustainable structure. Students will view case studies and consider the impact of the site plan on the overall efficiency and sustainability of the structure. Students will compare various green energy options, advantages and disadvantages depending on the geographic location, site, and other factors. Students will demonstrate understanding of indoor environmental quality by incorporating these concepts, in a practical manner, into a structures design. Students will demonstrate understanding of sustainable products used on/within a structure by incorporating the products into a sustainable structure. Accuracy will be determined by the proper use of the components in the given situation.
	AECT 450 - Building Science Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): AECT 280 Restriction(s): Junior or Senior level. Construction Mgmt:Design&Build, Architectural Design & Bldg, Construction Management BT majors only. Corequisite(s): None Buildings have become more complex as the effects of energy efficiency and mechanical systems have become more sophisticated. This course examines how all the systems in a building interact with each other and how their interaction affects indoor air quality, energy usage, and quality of life. The course also examines the use of “green” (environmental efficiency) building principles to lessen the impact of a building on its environment. Student Learning Outcomes of the Course: Describe the relationship of the three pathways for heat loss through a building section. Explain methods employed to minimize air infiltration into a building. Describe pathways and mitigation measures for slowing migration of water into a building. Contrast the functions of a vapor retarder and an air barrier. Calculate the overall estimated heat loss and resulting heating cost of building given the appropriate data. Describe a blower door test and the use of a FLIR camera
	AECT 460 - Structural Steel Design Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): AECT 360 Restriction(s): None Corequisite(s): None This course is a study of steel as a material, including analysis and design of steel framed members in building structures in conformance with AISC code. Typical structural components include tension members, compression members, beams, welded and bolted connections, trusses, and frames. Use of computer software to solve problems is included. Student Learning Outcomes of the Course: Know and understand the fundamental principles of structural steel design for buildings. Be able to layout and design structural steel-framed building systems and components for typical low-rise commercial, industrial, residential and institutional buildings. Layout and design of building components using light-gage cold-formed steel products Become familiar with the A.I.S.C Manual of Steel Construction, latest ed.
	AECT 480 - Reinforced Concrete Design Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): AECT 360 Restriction(s): Junior or Senior level. Construction Mgmt:Design&Build, Architectural Design & Bldg, Construction Management BT majors only. Corequisite(s): None This course is a study of concrete as a material, including analysis and design of concrete framed members in building structures in conformance with ACI-318 code. Typical structural components include flexural members, compression members, one-way and two-way slabs, footings, and walls. Use of computer software to solve problems is included. Student Learning Outcomes of the Course: Know and understand basic principles and practices associated with design, analysis and usage of reinforced concrete in buildings and other structures. Be able to effectively use the latest industry standard formulas, tables, design aids and computer software in the economical selection (design) of steel and concrete members. Become familiar with current construction practices and techniques when preparing construction documents.
	AECT 496 - Advanced Study in Architectural Engineering Construction Technology - upper division Credit Hours: 1-4 Lecture Hours: 1-4 Laboratory Hours: 1-4 Prerequisite(s): None Restriction(s): None Corequisite(s): None The faculty member and student develop an area of study not within an approved course. Advanced study provides a very able and highly motivated student the opportunity to explore a topic of study in greater depth and breadth. Student Learning Outcomes of the Course: Demonstrate the ability to work independently. Demonstrate proficiency in the specific area of study.
Allied Health
	ALHT 106 - Culture and Healthcare Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): Current or previous enrollment in NURS 101 Restriction(s): None Corequisite(s): None This course introduces the concept of cultural impact on healthcare decisions of individuals, families, and ethnic/ geographical groups of people. The course will examine various cultural healthcare practices, specifically addressing cultural views regarding communication, self, health, illness, childbirth, and the process of dying. Student Learning Outcomes of the Course: Identify and discuss cultural differences regarding communication, view of self, health, illness, childbirth and dying. Examine various cultures and how their unique beliefs of communication, self, health, illness, childbirth, and dying impact healthcare decisions.
	ALHT 202 - Statistics and Research Methods Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): UNIV 300 Restriction(s): None Corequisite(s): None This course explores concepts of qualitative & quantitative research and its use in conducting investigations of phenomenon in the social and behavioral sciences. The course will further provide the learner with an understanding of research methodologies and enable the learner to appropriately select statistical techniques to answer research questions. The learner will be introduced to the use of the Statistical Package for the Social Sciences (SPSS). Student Learning Outcomes of the Course: Discuss the importance of statistics to their field of endeavor. Differentiate between qualitative and quantitative research and basic concepts associated with descriptive statistics. Calculate, by hand and with SPSS, measures of central tendency, measures of variability, and inferential statistics such as: t-tests, analysis of variance (ANOVA), and simple regression. Gain an understanding of various types reliability and validity, hypothesis testing and normal curves. Analyze inferential statistical procedures, nonparametric procedures, and published research for appropriateness of methodology.
	ALHT 300 - Pathophysiology Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): MATH 115 or equivalent statistics course, UNIV 300 Restriction(s): None Corequisite(s): None The concepts of pathophysiology over the lifespan are covered in detail, including etiology and progression of disorders affecting cells (micro), organs (macro), and systems involved in the regulation of structure and function within the human organism. In addition to examining systemic disorders, the influence of genetics/heredity, race, ethnicity, environment, gender and age on physiological health will be explored. Student Learning Outcomes of the Course: Differentiate between physiologic and pathophysiologic processes Explore the physiologic basis for manifestations and adaptive responses of disease processes Integrate concepts of genetics/heredity, race, ethnicity, environment, gender, risk factors, and age with the etiology and pathophysiology of disease processes
	ALHT 301 - Ethics in Healthcare Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): ALHT 202 or MATH 115 or equivalent statistics course and UNIV 300 or enrolled in the Healthcare Management - BBA with junior status Restriction(s): Restricted to Nursing: Online - RN-to-BSN and Healthcare Management - BBA programs Corequisite(s): None This course focuses on contemporary healthcare issues raising personal and professional ethical concerns. Emphasis is placed on cultural differences, current legislation, political and religious controversy, economic constraints, technology, and professional commitment related to the resolution of the identified ethical dilemmas. The process of ethical analysis and reasoning is used to resolve representative and healthcare situations. Scientific literature that has utility in guiding ethical decision making will be explored and analyzed. Student Learning Outcomes of the Course: Identify the role of the healthcare professional with regard to ethical decision-making. Explore theories and principles central to ethical dilemmas and moral development. Examine how ethical decision-making impacts healthcare professionals. Analyze research related to ethical issues and dilemmas to promote ethical decision making.
	ALHT 304 - Death and Dying Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): ALHT 202 , MATH 115 , or equivalent statistics course; ENGL 100 and/or ENGL 200 ; PSYC 100 Restriction(s): None Corequisite(s): None This course focuses on historical and contemporary perspectives on death and dying. Current American practices and transcultural considerations are addressed. Emphasis is placed on the terminally ill and bereaved and ethical, moral, and legal issues surrounding the care of the dying individual. Student Learning Outcomes of the Course: Reflect upon the evolution of death, personal concepts of death and evaluate personal preferences for end of life planning Explore culturally and spiritually sensitive communication by the healthcare worker as it relates to the dying process Describe interventions that facilitate the grief process specific to the needs and tasks of the dying individual across the lifespan Identify the role of hospice and palliative care during the dying process and preventive measures for compassion fatigue in caregivers Critique the different ethical and moral sides of death and dying issues
	ALHT 400 - Epidemiology Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): ALHT 202 or MATH 115 or equivalent statistics course and NURS 303 and ALHT 300 and ALHT 301 or enrolled in the Healthcare Management - BBA with junior status Restriction(s): Restricted to Nursing: Online - RN-to-BSN and Healthcare Management - BBA programs Corequisite(s): None This course presents epidemiological principles and methods with emphasis on the health status and health needs of a population, on levels of prevention, on susceptibility, and modes of transmission; and on promotion of health using various strategies. Statistical measures and findings from research are applied to describe the incidence & prevalence of disease; morbidity and mortality rates; health beliefs and behaviors; socioeconomic, ethnic and racial disparities; causality of disease and disability; and risk factors for the purpose of evidence-based decision making in public health. Student Learning Outcomes of the Course: Describe the role of epidemiology in public health decision-making. Apply epidemiological concepts and principles to assessment and management of public health problems. Analyze statistical data and research for evidenced-based decision making in epidemiology and public health. Assess disparities and ethical issues in health caused by racial, ethnic, cultural, gender, age, socioeconomic, or environmental factors and their influences on health behaviors and risks in populations.
	ALHT 401 - Health Policy Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): ALHT 202 or MATH 115 , UNIV 300 , NURS 300 , NURS 301 , NURS 302 , NURS 303 , ALHT 300 , ALHT 301 , NURS 400 Restriction(s): None Corequisite(s): None This course will introduce students to the key concepts of the healthcare policy process. Students will examine the interactions between government, healthcare providers, consumers, and insurers and how they impact policy and programmatic decisions in the workplace and community. Various contemporary healthcare policy topics surrounding the current US healthcare system and systems of other developed nations will be explored such as financing, quality and safety, and services. Student Learning Outcomes of the Course: Investigate historical events and public policies which have shaped the current healthcare delivery system in the United States. Compare and contrast the strengths and limitations of the healthcare delivery system. Analyze economic, social, cultural, natural, and political factors which affect the healthcare delivery system. Analyze the relationships between local, state, and national health policy and the current healthcare delivery system. Compare and contrast the healthcare delivery system in the United States with the healthcare delivery system in other selected countries.
	ALHT 500 - Health Policy and Technology in Healthcare Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): NURS 501 , NURS 502 , or enrolled in the Healthcare Management - BBA with junior status Restriction(s): None Corequisite(s): None This course combines key concepts of health policy development and technology used in healthcare systems. Learners will debate current healthcare reform, examine basic concepts of healthcare informatics and current systems in usage, in order to have a comprehensive look at current healthcare policy issues, efforts to address disparities, and technology used in healthcare. Models for studying vulnerable populations will be integrated into examining strategies for improvement, and will be presented in live webinar format. The use of information technology in healthcare systems is analyzed for improving organizational outcomes and healthcare delivery. Student Learning Outcomes of the Course: Explore healthcare quality indicators and selected healthcare informatics systems for their influence on policy development and healthcare delivery Analyze individual, community, and societal determinants of vulnerable populations, healthcare disparities, and current legislative efforts to preserve individual and group rights Conceptualize the integration of policy development and informatics to enable positive change in healthcare delivery Integrate the healthcare policy legislative process with informatics concepts to address needs of vulnerable populations.
	ALHT 501 - Leadership and Quality Improvement in Healthcare Systems Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course provides a foundation of leadership, organizational, change, and quality improvement principles, guided by theories, evidence, benchmarks, and regulatory and professional standards in nursing and healthcare. Learners will apply concepts of organizational complexity, challenges, and opportunities to potential leadership projects and how to be effective change agents in healthcare organizations. Content focuses on applying universal principles of leadership that drive the processes of change, quality improvement, and innovation in healthcare organizations. Strategies for creating a culture of quality and safety are applied through case studies. Concepts include interdisciplinary communication, conflict management, and collective bargaining. There is emphasis on defining, measuring, and evaluating outcomes within organizations and systems through a Quality Improvement Project. Student Learning Outcomes of the Course: Provide a framework to examine principles, theories, evidence, styles, behaviors, and ethics of leadership in healthcare organizations. Integrates policies, standards, regulatory practices and benchmarks of quality and safety with leadership of healthcare organizations. Fosters understanding of organizational, interdisciplinary, and collaborative communication. Provides opportunity to explore team building, collective bargaining, and negotiating practices.
Anthropology
	ANTH 100 - Cultural Anthropology Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course is an introduction to the subject of human cultural diversity as well as similarity. Topics discussed include: evolutionary change; socio-political levels of organizations; kinship system analysis; marriage systems; political, economic, and religious behavioral systems; language; and personality research. Student Learning Outcomes of the Course: Students will be familiar with basic concepts of the whole discipline of Anthropology Students will understand the basic theoretical approaches to the understanding of human cultural variation. Students will be familiar with core cultural institutions Students will be familiar with the prime cultural anthropological methodology - participant observation.
	ANTH 110 - Human Origins Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course examines the human as a biological organism as we adapt to various social and ecological environments. Primary topics covered include population genetics, primatology, human evolution, and human variability. Student Learning Outcomes of the Course: Be familiar with the basic processes of evolution, including natural selection, mutation, genetic drift, and gene flow Be able to understand the biological basis of the human species Students will be familiar with the latest interpretations of human biological evolution Students will understand the processes leading to human diversity
	ANTH 296 - Advanced Study in Anthropology - lower division Credit Hours: 1-4 Lecture Hours: 1-4 Laboratory Hours: 1-4 Prerequisite(s): None Restriction(s): None Corequisite(s): None The faculty member and student develop an area of study not within an approved course. Advanced study provides a very able and highly motivated student the opportunity to explore a topic of study in greater depth and breadth. Student Learning Outcomes of the Course: Demonstrate the ability to work independently. Demonstrate proficiency in the specific area of study.
	ANTH 300 - Survey of World Cultures Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): Two social science courses Restriction(s): None Corequisite(s): None A survey of the major cultures of the world, this course emphasizes analysis and explanation of cultural differences, with the intent of facilitating a greater degree of ease in possible intercultural contact situations. Student Learning Outcomes of the Course: Students will understand the basic concepts in cultural anthropology, esp. culture Students will be familiar with culture areas of the world, along with the political entities associated with the cultural areas Students will be able to identify and assess cultural universalities Students should be able to assess cultural differences in the context of social and environmental variation Students will familiarize themselves with the basic methods of cultural anthropology, especially of participant observation and interviewing
	ANTH 496 - Advanced Study in Anthropology - upper division Credit Hours: 1-4 Lecture Hours: 1-4 Laboratory Hours: 1-4 Prerequisite(s): None Restriction(s): None Corequisite(s): None The faculty member and student develop an area of study not within an approved course. Advanced study provides a very able and highly motivated student the opportunity to explore a topic of study in greater depth and breadth. Student Learning Outcomes of the Course: Demonstrate the ability to work independently. Demonstrate proficiency in the specific area of study.
Architectural Technology
	ARCH 110 - Computer Aided Residential Drawings Credit Hours: 3 Lecture Hours: 1.5 Laboratory Hours: 3 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course presents the principles of computer-aided drafting as applied to residential construction drawings. The course focuses on the drawing conventions and building technology related to residential construction. Students will produce a set of fully detailed and dimensioned construction drawings for a moderately complex wood frame residence at the pace of a drawing a week. Student Learning Outcomes of the Course: Develop basic Architectural CAD skills Apply drawing conventions for light frame residential buildings Produce a set of industry standard working drawings for a small residence including the use of dimensions, notes and symbols on plans, sections and elevation drawings Apply drawing standards including scale, title, boarder and title blocks to architectural construction documents Define and explain basic methods and materials of residential construction Apply standard material sizes and standard material assemblies in residential working drawing
	ARCH 115 - Freehand Drawing Credit Hours: 3 Lecture Hours: 2 Laboratory Hours: 1 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course first introduces strategies that refine students’ ability to see and understand complex visual characteristics such as shape and form and then to record what is discerned accurately and expressively with pencil on paper. The course then introduces basic principles of design and composition in black and white and in color. Students are then encouraged to explore more personal interpretations of real and imagined objects by employing any or all of the preceding skills and strategies in a variety of sketching and design assignments. This course is also listed as ARTS 115 . Student Learning Outcomes of the Course: Student will demonstrate understanding of at least one principal form of artistic expression and the creative process inherent therein.
	ARCH 120 - Architectural Graphics Credit Hours: 1 Lecture Hours: 0 Laboratory Hours: 3 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course introduces students to the principles of descriptive geometry as applied to architectural drawing and includes principles of orthographic, paraline, and perspective projection, as well as shade and shadow projection, with an introduction to rendering in pencil. Student Learning Outcomes of the Course: Students will reproduce architectural lettering and label components within drawings throughout the term. Draw 2-dimensional objects (plan view & elevations) to scale, using drafting equipment and an architect’s or engineer’s scale. Proficiently create isometric and multi-point perspective drawings. Correctly reproduce/create 2-dimensional drawings of various building systems and sections.
	ARCH 125 - Architectural Design Graphics Credit Hours: 3 Lecture Hours: 1.5 Laboratory Hours: 3 Prerequisite(s): None Restriction(s): None Corequisite(s): None Course will introduce a series of traditional, non-digital, graphic topics and techniques, that can be applied to the solution and presentation of Architectural design problems. Student Learning Outcomes of the Course: SLO 1 - Drawing Fundamentals - Apply fundamental principles of drafting to the preparation of residential and commercial construction drawings, including plans, sections, elevations, schedules, details, and specifications. SLO 3 - Presentation Techniques - Employ traditional graphic means, both drawings and models, to illustrate and orally present completed design projects.
	ARCH 135 - Arch Design Fundamentals Credit Hours: 3 Lecture Hours: 1.5 Laboratory Hours: 3 Prerequisite(s): ARCH 125 Restriction(s): None Corequisite(s): None This course will expand upon the basic architectural representation techniques learned in ARCH 125 by emphasizing composition, symmetry, balance, and proportion. Student Learning Outcomes of the Course: SLO 1 - Drawing Fundamentals - Apply fundamental principles of drafting to the preparation of residential and commercial construction drawings, including plans, sections, elevations, schedules, details, and specifications. SLO 3 - Presentation Techniques - Employ traditional graphic means, both drawings and models, to illustrate and orally present completed design projects.
	ARCH 210 - Architectural Design I Credit Hours: 4 Lecture Hours: 1 Laboratory Hours: 6 Prerequisite(s): ARCH 135 Restriction(s): None Corequisite(s): None Students are challenged to explore and utilize many of the fundamental theories and principles of visual/spatial dynamics necessary to develop meaningful architectural design. Emphasis is on both the form and idea of their design solutions. Students design, construct, and graphically document 3-dimensional models through a thematic series of increasingly complex exercises. Student Learning Outcomes of the Course: SLO 1: Drawing Fundamentals Apply fundamental principles of drafting to the preparation of residential and commercial construction drawings, including plans, sections, elevations, schedules, details, and specifications. SLO 2: Design Conceptualization Demonstrate design conceptualization strategies, the process of design, and the development and resolution of specific construction details in the design of residential and commercial building systems. SLO 3: Presentation Techniques Employ traditional graphic means, both drawings and models, to illustrate and orally present completed design projects.
	ARCH 220 - Commercial Detailing Credit Hours: 3 Lecture Hours: 1.5 Laboratory Hours: 3 Prerequisite(s): ARCH 110 Restriction(s): None Corequisite(s): None This course emphasizes building-system details for commercial buildings. Several typical structural systems are explored through detailed wall section drawings, and an abbreviated set of construction drawings for a typical small commercial building is produced. All drawings are produced on CAD. Student Learning Outcomes of the Course: Understand commercial building systems; including masonry, precast concrete, steel, cast-in- place concrete and pre-engineered buildings. Be able to layout and draw commercial building working drawings; including sections, plans, elevations and details. Reinforce and further develop quality CAD skills required in the design office. Productive usage of SketchUp software for creation of 3D details Introduction and implementation of Building Information Modeling (BIM) utilizingAutodesk “Revit Architecture” for use in 3D design.
	ARCH 240 - Architectural Design II Credit Hours: 4 Lecture Hours: 1 Laboratory Hours: 6 Prerequisite(s): ARCH 210 ; ARCH 220 Restriction(s): None Corequisite(s): None Building design projects of increasing complexity and duration are presented. Each project focuses on several specific areas of concentration, such as stairs, site, kitchen, etc., within the broader context of building design. Design conceptualization strategies, the “process” of design, and the development and resolution of specific construction details in both residential and commercial building systems are emphasized. Student Learning Outcomes of the Course: SLO 1: Drawing Fundamentals Apply fundamental principles of drafting to the preparation of residential and commercial construction drawings, including plans, sections, elevations, schedules, details, and specifications. SLO 2: Design Conceptualization Demonstrate design conceptualization strategies, the process of design, and the development and resolution of specific construction details in the design of residential and commercial building systems. SLO 3: Presentation Techniques Employ traditional graphic means, both drawings and models, to illustrate and orally present completed design projects.
	ARCH 250 - Architectural Digital Design I Credit Hours: 3 Lecture Hours: 2 Laboratory Hours: 2 Prerequisite(s): ARCH 110 and ARCH 120 Restriction(s): None Corequisite(s): None This course introduces students to three-dimensional computer modeling and techniques for the digital production of architectural renderings. Students apply “3-D” techniques to buildings and other architectural features. Photo-realistic renderings and walk-throughs are covered. Student Learning Outcomes of the Course: Prepare a mid-term and final presentation to support the verbal presentation. Design rational and response to the project is visually narrated by drawings and models which clearly communicate the stated intent of the project.
	ARCH 296 - Advanced Study in Architectural Technology - lower division Credit Hours: 1-4 Lecture Hours: 1-4 Laboratory Hours: 1-4 Prerequisite(s): None Restriction(s): None Corequisite(s): None The faculty member and student develop an area of study not within an approved course. Advanced study provides a very able and highly motivated student the opportunity to explore a topic of study in greater depth and breadth. Student Learning Outcomes of the Course: Demonstrate the ability to work independently. Demonstrate proficiency in the specific area of study.
	ARCH 300 - Architectural Digital Design II Credit Hours: 3 Lecture Hours: 2 Laboratory Hours: 2 Prerequisite(s): ARCH 250 Restriction(s): None Corequisite(s): None This course introduces students to advanced three-dimensional and parametric computer modeling and techniques for the digital production of architectural renderings. Students apply “3-D” techniques to buildings and other architectural features. Photo-realistic renderings and walk-throughs are covered. Student Learning Outcomes of the Course: Prepare a mid-term and final presentation to support the verbal presentation. Design rational and response to the project is visually narrated by drawings and models which clearly communicate the stated intent of the project.
	ARCH 315 - Special Topics in Architecture Credit Hours: 1-3:1-3,0-2 Lecture Hours: 1-3 Laboratory Hours: Varies Prerequisite(s): ARCH 135 , or by permission of instructor Restriction(s): Permission of Construction Management faculty required. Construction Management majors only. Junior or higher class level. Corequisite(s): None Special Topics in Architecture will provide students opportunities to study pertinent issues related to the study of Architecture. Topics of study will draw upon faculty members areas of research interest and expertise at an elevated level of rigor. Course may be repeated for credit with different topics. Student Learning Outcomes of the Course: Variable, based upon specific topic selected by faculty member.
	ARCH 330 - Architectural Design III Credit Hours: 6 Lecture Hours: 0 Laboratory Hours: 12 Prerequisite(s): ARCH 240 or permission of the instructor Restriction(s): None Corequisite(s): None This course focuses on the design of small, detached, low- rise commercial or institutional buildings, libraries, banks, restaurants, etc., of approximately 3000 sq ft to 8000 sq. ft., with an extensive site to develop, in a suburban context. Student Learning Outcomes of the Course: Use a set of analytical drawings to enhance the architectural design process Demonstrate the application of basic design principles in architecture and design Develop architectural solutions to complex programs and site locations Develop site plans related to the architectural project
	ARCH 370 - Architectural Design IV Credit Hours: 6 Lecture Hours: 0 Laboratory Hours: 12 Prerequisite(s): ARCH 330 or permission of the instructor Restriction(s): None Corequisite(s): None This course focuses on the design of moderately sized, low-rise commercial or institutional buildings, health clubs, municipal buildings, museums, etc., of approximately 8,000 sq. ft. to 12,000 sq. ft., with an extensive site to develope, in a suburban context. Student Learning Outcomes of the Course: Design a small community using best practices from urban design Plan a community’s infrastructure Plan a community’s public space Develop architecture that response to a community’s goals Use a set of analytical drawings to enhance the architectural design process
	ARCH 371 - Architectural Theory Credit Hours: 3 Lecture Hours: 2 Laboratory Hours: 2 Prerequisite(s): ARCH 330 ; HUMN 242 Restriction(s): None Corequisite(s): None Study abroad program in Italy with an emphasis on the history and architecture of the Renaissance. Student Learning Outcomes of the Course: SLO 1: Drawing Fundamentals Apply fundamental principles of drafting to the preparation of residential and commercial construction drawings, including plans, sections, elevations, schedules, details, and specifications. SLO 3: Presentation Techniques Employ traditional graphic means, both drawings and models, to illustrate and orally present completed design projects. SLO 5: Architectural History Attain basic understanding of Architectural History from pre-history to the present.Employ traditional graphic means, both drawings and models, to illustrate and orally present completed design projects.
	ARCH 400 - Architectural Internship Credit Hours: 3 Lecture Hours: 0 Laboratory Hours: 9 Prerequisite(s): None Restriction(s): Junior status in the architectural B.T. or B.Arch. curriculum Corequisite(s): None Students will gain relevant experience in a real-world architectural work environment. Specific work experience will include and count towards those required for the National Council of Architectural Registration Board’s (NCARB) Architectural Experience Program (AXP). A minimum of 135 hours of acceptable and verifiable work experience will be expected. The internship can be completed at any time during the Junior, Senior or 5th-Year of the BT and B.ARCH. programs. Student Learning Outcomes of the Course: Demonstrate the technical experience required for entry level position as related to at least two of six prescribed AXP experience areas. Demonstrate professional communication skills and employment experience gained through a professionally structured internship.
	ARCH 401 - Portfolio Preparation Credit Hours: 1 Lecture Hours: 1 Laboratory Hours: 0 Prerequisite(s): Senior status in BT Architectural Design and Building program Restriction(s): None Corequisite(s): None An introduction to advanced graduate level Architectural Education expectations and/or career paths open to students upon completion of Delhi’s 4-year Architectural Design/Build BT degree. Investigation of job search requirements and related documentation of prior completed work/experience (i.e. Portfolio + Resume design). In depth review of salary ranges, geographic work profiles and graduate level scholastic curricula will be reviewed. Additional individual chosen student path preparation will be undertaken in completion of course work. Issues of NCARB regulated professional internship and Architectural licensure requirements will be reviewed. Each student upon completion of the course will be required to submit a professional portfolio geared for either graduate admissions or use in interview for entry into the work place. Student Learning Outcomes of the Course: Identify basic principles of graphic design as related to portfolio presentations and other similar graphic expressions. Create an attractive and informative architectural portfolio Identify the components of a resume and the ability to develop a resume for themselves Identify the components of a cover letter and the ability to develop a cover letter for themselves Recognize how to prepare for and conduct themselves in an interview
	ARCH 410 - Building Codes & Professional Practices Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): Junior standing or permission of the instructor Restriction(s): None Corequisite(s): None An exposure to the legal, management and business aspects of architecture (with applications to engineering and construction management) Student Learning Outcomes of the Course: Understanding history of and reasons for building and zoning codes and familiarity with the content and use of both Awareness of other practice “controls,” including education, licensure, ethics, liability and contracts Identification of personal skills and traits helpful towards contributing to and advancing in the profession of architecture Knowledge of the organization and structure of architectural firms and of typical project-oriented teams Familiarity with project scopes and comprehension of successful project management techniques Understanding of basic business aspects and considerations of professional practice
	ARCH 430 - Architectural Design V Credit Hours: 6 Lecture Hours: 0 Laboratory Hours: 12 Prerequisite(s): ARCH 370 Restriction(s): None Corequisite(s): None This course focuses on the renovation, expansion, and/or adaptive reuse of existing buildings in both a detached (suburban) and attached (in an urban street) context. Student Learning Outcomes of the Course: SLO 1 - Drawing Fundamentals - Apply fundamental principles of drafting to the preparation of residential and commercial construction drawings, including plans, sections, elevations, schedules, details, and specifications. SLO 3 - Presentation Techniques - Employ traditional graphic means, both drawings and models, to illustrate and orally present completed design projects.
	ARCH 470 - Architectural Design VI Credit Hours: 6 Lecture Hours: 0 Laboratory Hours: 12 Prerequisite(s): ARCH 430 Restriction(s): None Corequisite(s): None This course serves as a “capstone,” and as such requires students to adeptly employ the broad range of technical and professional competencies gained in the program. Thus, this course will focus on the design of large and/or complex commercial and institutional buildings, such as mid-rise, 4-to-10+/- story, mixed-use urban buildings and/or complex, detached low-rise buildings such as small schools, or prisons, etc. Student Learning Outcomes of the Course: SLO 1 - Drawing Fundamentals - Apply fundamental principles of drafting to the preparation of residential and commercial construction drawings, including plans, sections, elevations, schedules, details, and specifications. SLO 3 - Presentation Techniques - Employ traditional graphic means, both drawings and models, to illustrate and orally present completed design projects.
	ARCH 481 - Architectural Design VII Credit Hours: 6 Lecture Hours: 0 Laboratory Hours: 12 Prerequisite(s): ARCH 470 with a C+ or higher Restriction(s): None Corequisite(s): None This comprehensive design studio focuses on technical concerns critical to the practice of architecture such as lighting, materials, structures, building envelopes and code requirements. These technical elements are studied through the lens of sustainability and integrated design. Technical software is used to analyze and document the building design. Student Learning Outcomes of the Course: Design a building that meets technical and aesthetic requirements of architecture. Deliver a verbal presentation using presentation drawings showing their architectural solution to a given problem. Submit detailed documentation of technical content including structural and mechanical engineering details. Adopt sustainability in design, particularly energy use. Analyze other sustainable features including building materials and water use and incorporate these features into an architectural solution.
	ARCH 485 - Thesis Research Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): Junior studio Restriction(s): None Corequisite(s): None Thesis Research will be a catalyst for developing and clarifying concepts to be explored, possible project ideas to be tested, and research completed in a specific area of interest within an architectural discourse. Satisfactory completion of this course is required to advance into ARCH 490 . Student Learning Outcomes of the Course: Construct a body of work; written, visual and verbal, that responds to the complex discourse within the field of architecture. Discover a broad scope of theoretical thinking that has influenced our current ideas of the build environment. Imagine a personal design thesis by engaging in both written and visual investigations.
	ARCH 490 - Thesis Studio Credit Hours: 6 Lecture Hours: 0 Laboratory Hours: 12 Prerequisite(s): ARCH 485  & ARCH 481 , min. grades in both courses = C Restriction(s): None Corequisite(s): None Thesis Studio is the culminating design studio for all 5th year seniors completing a Bachelors of Architecture. Under the supervision of a faculty member students will investigate an architectural thesis generated in Thesis Research. This “site” of work will provide students with an opportunity to focus and produce a person architectural response. Completion of this course and submission of a final Degree Project Portfolio will be required to graduate. Student Learning Outcomes of the Course: Apply research for the creation of an architectural project. Utilize accumulated knowledge within the scope of an architectural investigation.
	ARCH 496 - Advanced Study in Architectural Technology - upper division Credit Hours: 1-4 Lecture Hours: 1-4 Laboratory Hours: 1-4 Prerequisite(s): None Restriction(s): None Corequisite(s): None The faculty member and student develop an area of study not within an approved course. Advanced study provides a very able and highly motivated student the opportunity to explore a topic of study in greater depth and breadth. Student Learning Outcomes of the Course: Demonstrate the ability to work independently. Demonstrate proficiency in the specific area of study.
Art
	ARTS 103 - History of American Popular Music Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): None Restriction(s): None Corequisite(s): None The subject matter of this course is the development of popular music styles in the United States from 1840 to the present. The curriculum highlights the individuals responsible for the creation of long-lasting American musical styles. Student Learning Outcomes of the Course: SUNY GE 8: Students will demonstrate understanding of at least one principal form of artistic expression and the creative process inherent therein.
	ARTS 104 - Ceramics I Credit Hours: 3 Lecture Hours: 1 Laboratory Hours: 4 Prerequisite(s): None Restriction(s): None Corequisite(s): None In this course the plastic characteristics of clay are explored through experiments in construction, throwing on the wheel, hand building, and other means of fabrication. Students experiment with mass and texture, form and context in functional and non-functional objects. Student Learning Outcomes of the Course: SUNY GE 8: Students will demonstrate understanding of at least one principal form of artistic expression and the creative process inherent therein. Students will be able to: Identify the elements of art, and principles of design using descriptive language; and articulate supported interpretations of select works. Create original artwork in which students effectively utilize the elements of art and principles of design. Demonstrate technical proficiency in the creation of functional ceramic constructions. Describe the properties and limitations of clay and glazes. Practice good studio management skills in the maintenance of a healthy studio environment.
	ARTS 105 - History of Country Music Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): None Restriction(s): None Corequisite(s): None The course will look at how country music absorbed other musical styles including big band, jazz and rock and roll, and at how the development of the music has mirrored cultural and social changes in the United States. Student Learning Outcomes of the Course: SUNY GE 8: Students will demonstrate understanding of at least one principal form of artistic expression and the creative process inherent therein.
	ARTS 110 - History of Rock Music Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course is a selective but comprehensive overview of the musical style known as “rock and roll.” The course historically follows rock’s beginning as a child of Afro- American musical styles and continues through its development into the 1980’s. The course emphasizes and explores: the absorption of black music and culture into the conservative white lifestyle of the 1950’s; the adoption of rock music as a signature expression of the “baby-boom” culture of the 1960’s; the diffusion of the rock music of the 1970’s into diverse styles, including progressive rock; and the incorporation of characteristics of European classical music. Student Learning Outcomes of the Course: SUNY GE 8: Students will demonstrate understanding of at least one principal form of artistic expression and the creative process inherent therein.
	ARTS 112 - Music in Black and White Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course examines the contributions of Afro-Americans in popular music and entertainment styles in America. Highlighting these areas will be the underlying theme of their initial acceptance or rejection by middle-class and upper-class white society. Student Learning Outcomes of the Course: SUNY GE 8: Students will demonstrate understanding of at least one principal form of artistic expression and the creative process inherent therein.
	ARTS 115 - Freehand Drawing Credit Hours: 3 Lecture Hours: 1 Laboratory Hours: 2 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course first introduces strategies that refine students’ ability to see and understand complex visual characteristics such as shape and form and then to record what is discerned accurately and expressively with pencil on paper. The course then introduces basic principles of design and composition in black and white and in color. Students are then encouraged to explore more personal interpretations of real and imagined objects by employing any or all of the preceding skills and strategies in a variety of sketching and design assignments. This course is also listed as ARCH 115 . Student Learning Outcomes of the Course: Student will demonstrate understanding of at least one principal form of artistic expression and the creative process inherent therein.
	ARTS 120 - Introduction to Painting Credit Hours: 3 Lecture Hours: 2 Laboratory Hours: 2 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course is an introduction to the materials, techniques and practices of acrylic painting. The student will acquire experience with a broad range of techniques, subject matter and approaches. Different styles of art will be explored to provide a context for students to develop their own personal language and style. Lectures with visual materials provided by the instructor and reading assignments wil be the basis for hands-on painting assignments. The emphasis is on studio work. Student Learning Outcomes of the Course: SUNY GE 8: Students will demonstrate understanding of at least one principal form of artistic expression and the creative process inherent therein. Students will be able to: Identify the elements of art, and principles of design using descriptive language; and articulate supported interpretations of select works. Create original artwork in which students effectively utilize the elements of art. Demonstrate basic acrylic painting techniques and the fundamentals of color theory.
	ARTS 296 - Advanced Study in Art - lower division Credit Hours: 1-4 Lecture Hours: 1-4 Laboratory Hours: 1-4 Prerequisite(s): None Restriction(s): None Corequisite(s): None The faculty member and student develop an area of study not within an approved course. Advanced study provides a very able and highly motivated student the opportunity to explore a topic of study in greater depth and breadth. Student Learning Outcomes of the Course: Demonstrate the ability to work independently. Demonstrate proficiency in the specific area of study.
	ARTS 300 - Art and Health Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): ENGL 100 or permission of instructor Restriction(s): None Corequisite(s): None This on-line course surveys various art principles and concepts together with their historical development as shown in representative works of painting, sculpture, architecture and landscape architecture drawn from the healthcare field. To illustrate the influence of arts on the evolution of healthcare, art will be examined in categories based on use for: direct healing, educating practitioners, recording of historical medical events, therapy, reforming the medical system, memorializing and grieving, and for exploring new frontiers in the medical field. Student Learning Outcomes of the Course: SUNY GE 8: Students will demonstrate understanding of at least one principal form of artistic expression and the creative process inherent therein. Students will be able to: Analyze the elements of art, and principles of design using descriptive writing; and articulate supported interpretations of select works. Create original artwork in which students effectively utilize the elements of art and principles of design to demonstrate key characteristics of select styles/periods. Explain major developments in the history of art, and how socio-cultural change has affected artists. Synthesize research from primary and secondary sources to explore the historical and/or contemporary impact of the arts in healthcare.
	ARTS 310 - The Art of Healing Landscapes Credit Hours: 3 Lecture Hours: 3 Laboratory Hours: 0 Prerequisite(s): ENGL 100 or permission of instructor Restriction(s): None Corequisite(s): None This course surveys various art principles and concepts together with their historical development as shown in representative works of painting, photography, architecture and landscape architecture focused on healing landscapes. Healing designs from many cultures will be examined from pre-history to the present around the following themes: landscape and memory, ancient places of power, gardens for holistic care, meditation gardens, spiritual symbolism, medicinal gardens, restorative landscapes, trends in hospital designs, failed healing landscapes, evidence based design, memorials, and therapeutic landscapes. Student Learning Outcomes of the Course: SUNY GE 8: Students will demonstrate understanding of at least one principal form of artistic expression and the creative process inherent therein. Students will be able to: Analyze the elements of art, and principles of design using descriptive writing; and articulate supported interpretations of select works. Create original artwork in which students effectively utilize the elements of art and principles of design to demonstrate key characteristics of select styles/periods. Explain major developments in the history of landscape design, and how socio-cultural change has affected landscape designers. Synthesize research from primary and secondary sources to explore the historical and/or contemporary impact of landscapes in healthcare.
	ARTS 496 - Advanced Study in Art - upper division Credit Hours: 1-4 Lecture Hours: 1-4 Laboratory Hours: 1-4 Prerequisite(s): None Restriction(s): None Corequisite(s): None The faculty member and student develop an area of study not within an approved course. Advanced study provides a very able and highly motivated student the opportunity to explore a topic of study in greater depth and breadth. Student Learning Outcomes of the Course: Demonstrate the ability to work independently. Demonstrate proficiency in the specific area of study.
Automotive
	AUTO 115 - Auto Brake System Credit Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course covers the theory, operation, maintenance, and repair of automotive and light truck brake systems. The main emphasis is on brake maintenance, service, and diagnostic troubleshooting through a reasonable understanding of brake theory. The laboratory component of the course includes various activities that follow the guidelines of the National Automotive Technicians Education Foundation (NATEF) and the National Institute for Automotive Service Excellence (ASE). Student Learning Outcomes of the Course: Define and demonstrate safe workplace practices. Understand and apply basic hydraulic principles including Pascal’s law. Perform routine service and maintenance to passenger cars, light trucks and SUV’s as it relates to the brake, steering and suspension systems. Demonstrate diagnostic and repair knowledge/skills in the areas of brake, steering and suspension systems. Access and interpret diagnostic and service repair information from computerized and text based sources. Diagnose and repair a variety of brake, steering and suspension system related concerns on vehicles. Demonstrate respectable work place skills required by the automotive repair industry.
	AUTO 118 - Automotive Suspension Systems Credit Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course includes the theory and principles of the operation, construction, maintenance, and repair of steering and suspension system components. It includes both standard and power steering and both front and rear suspension systems of passenger cars, light duty trucks, and sport utility vehicles. The laboratory component of this course includes various activities that follow the guidelines of the National Automotive Technicians Education Foundation (NATEF) and the National Institute for Automotive Service Excellence (ASE). Student Learning Outcomes of the Course: Identify safety hazards pertaining to steering and suspension system service. Identify various steering and suspension components. Explain how to properly test various steering and suspension components. Perform maintenance servicing, diagnostic testing and repair of the steering and suspension systems. Perform front and rear wheel alignment on various vehicles to manufactures specifications.
	AUTO 119 - Auto Suspensions & Steering WE Credit Hours: 1 Lecture Hours: 0 Laboratory Hours: 6 Prerequisite(s): Successful completion of ASE test A4 (Steering and Suspension) and approval of academic advisor Restriction(s): None Corequisite(s): None This course consists of a 90-hour work experience in a repair shop setting where the student will perform diagnosis and repairs to all steering components, front and rear suspensions, wheel alignments, wheels and tires, and other system components as relates to the requirements of the AUTO 118 suspension systems course. The student will be supervised by management (preferably ASE certified) of the participating shop. Students are required to maintain a log of all tasks and clock hours completed. The cooperating supervisor and program faculty must approve the records before a grade is assigned and credit awarded. Student Learning Outcomes of the Course: Identify safety hazards pertaining to steering and suspension system service. Identify various steering and suspension components. Explain how to properly test various steering and suspension components. Perform maintenance servicing, diagnostic testing and repair of the steering and suspension systems. Perform front and rear wheel alignment on various vehicles to manufactures specifications.
	AUTO 121 - Introduction to Automotive Lab Credit Hours: 1 Lecture Hours: 0 Laboratory Hours: 3 Prerequisite(s): None Restriction(s): Automotive Technology majors only Corequisite(s): None This is an automotive laboratory course that deals with the diagnosis and repair of common automotive problems. All diagnosis and repair is done under the supervision of faculty and staff. Service, diagnosis, and repair procedures are performed on customer-owned or College-owned vehicles to simulate working in the industry. Students also use this lab to preform required tasks related to the current semester courses. Student Learning Outcomes of the Course: Demonstrate correct use of hand tools and shop equipment. Perform routine maintenance/repair to passenger cars and light trucks. Demonstrate and apply diagnostic and repair skills in the areas of automotive chassis and electrical systems. Demonstrate respectable work place skills and safety procedures required by the automotive repair industry. Correctly analyze service information from computerized and conventional sources. Complete a work order that includes customer and vehicle information along with the concern, cause and correction of the vehicle.
	AUTO 124 - ASE Work Experience I Credit Hours: 2 Lecture Hours: 0 Laboratory Hours: 12 Prerequisite(s): Approval of academic advisor Restriction(s): None Corequisite(s): None This course consists of a 180-hour work experience in a repair shop setting where the student will perform a variety of diagnostic and repair tasks with a focus on electrical and brake systems as relates to the requirements of the AUTO 115 brake systems and the AUTO 125 electrical I courses. The student will be supervised by management (preferably ASE certified) of the participating shop. Students are required to maintain a log of all tasks and clock hours completed. The cooperating supervisor and program faculty must approve the records before a grade is assigned and credit awarded. Student Learning Outcomes of the Course: Demonstrate correct use of hand tools and shop equipment. Perform routine maintenance/repair to passenger cars and light trucks. Demonstrate and apply diagnostic and repair skills in the areas of automotive chassis and electrical systems. Demonstrate respectable work place skills and safety procedures required by the automotive repair industry. Correctly analyze service information from computerized and conventional sources. Complete a work order that includes customer and vehicle information along with the concern, cause and correction of the vehicle.
	AUTO 125 - Automotive Electrical I Credit Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Prerequisite(s): None Restriction(s): None Corequisite(s): None This course is designed to prepare students with the fundamentals needed to study, diagnose, and repair all automotive electrical and electronic circuits and systems. Students study basic electrical theories, basic electrical circuits, common electrical components, troubleshooting methods, use of basic test equipment, diagnosis of faulty circuit operation, wiring, use of wiring diagrams, automotive batteries, lighting systems, and electrical accessories. The laboratory component of the course includes various activities that follow the guidelines of the National Automotive Technicians Education Foundation (NATEF) and the National Institute for Automotive Service Excellence (ASE). Student Learning Outcomes of the Course: Explain and demonstrate the relationship of AC/DC voltage, amperage and resistance (including all units of measurement) and be able to apply Ohm’s and Watt’s Laws to the construction, operation and troubleshooting of automotive electrical circuits. Identify and explain the operation and relationship of common electrical circuit components and the seven circuit conditions as they apply to: series, parallel and series/parallel automotive electrical circuits. Verify proper operation and troubleshoot electrical circuits/components using a digital volt-ohm meter (DVOM), test lights and jumper wires. Read various automotive wiring diagrams to identify circuit components and use as a “road map” to assist in troubleshooting electrical system circuits and problems. Demonstrate the knowledge of automotive starting battery construction, operation and performance ratings. Apply knowledge to safely perform maintenance procedures, all industry standard diagnostic tests and replace batteries within manufacturer’s specifications. Demonstrate knowledge of the construction and operation of common automotive lighting systems and apply this understanding to troubleshoot and repair malfunctioning circuits and components.
	AUTO 126 - ASE Fuel Systems WE Credit Hours: 1 Lecture Hours: 0 Laboratory Hours: 6 Prerequisite(s): Successful completion of ASE test A8 (Engine Performance) and approval of academic advisor Restriction(s): None Corequisite(s): None This course consists of a 90-hour work experience in a repair shop setting where the student will perform general engine diagnostics and service repair to both carbureted and fuel-injected type engines including exhaust systems repairs and service to fuel system components as relates to the requirements of the AUTO 138 fuel systems course. Students are required to maintain a log of all tasks and clock hours completed. The cooperating supervisor and program faculty must approve the records before a grade is assigned and credit awarded. Student Learning Outcomes of the Course: Demonstrate entry level knowledge and comprehension of the construction and operation of various automotive and light duty truck systems. Apply operational knowledge to the diagnosis of faults in various automotive and light duty truck systems. Maintain, diagnose and repair all gasoline engine fuel system components, emission control devices and engine performance systems on various automobiles and light duty trucks. Maintain, diagnose and repair automotive and light duty truck gasoline engines. Demonstrate entry level employability and safety skills. Provide verbal and written diagnosis and repair descriptions.
	AUTO 128 - Automotive Electrical II Credit Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Prerequisite(s): AUTO 125 or permission of the instructor Restriction(s): None Corequisite(s): None This course encompasses the theory of operation, construction, maintenance, testing, and repair of automotive charging systems, starting systems, lighting systems, electrical accessories, automotive instrumentation, and an introduction to computer control systems. The laboratory component of the course will include various laboratory activities that follow the guidelines of the National Automotive Technicians Education Foundation (NATEF) and the National Institute for Automotive Service Excellence (ASE). Student Learning Outcomes of the Course: Demonstrate entry level knowledge and comprehension of the construction and operation of various automotive and light duty truck systems. Apply operational knowledge to the diagnosis of faults in various automotive and light duty truck systems. Verify proper operation and troubleshoot electrical circuits/components using a digital volt-ohm meter (DVOM), test lights and jumper wires. Read various automotive wiring diagrams to identify circuit components and use as a “road map” to assist in troubleshooting electrical system circuits and problems. Demonstrate the knowledge of automotive starting battery construction, operation and performance ratings. Apply knowledge to safely perform maintenance procedures, all industry standard diagnostic tests and replace batteries within manufacturer’s specifications. Demonstrate knowledge of the construction and operation of common automotive lighting systems and apply this understanding to troubleshoot and repair malfunctioning circuits and components. Maintain, diagnose and repair automotive and light duty truck electrical and electronic systems. Explain what electrical current, voltage and resistance are and their effect is on each other. Describe the units of measure for voltage, amperage and ohms and be able to convert between units using prefixes and base units. Properly connect a digital volt-ohm meter (DVOM) to measure volts, voltage drop, ohms and amps and correctly interpret and apply the meter readings to diagnose and verify electrical circuits and their components.
	AUTO 129 - AASE Electrical WE I Credit Hours: 1 Lecture Hours: 0 Laboratory Hours: 6 Prerequisite(s): Successful completion of ASE test A6 (Electrical and Electronic Systems) and approval of academic advisor Restriction(s): None Corequisite(s): None This course consists of a 90-hour work experience in a repair shop setting where the student will perform basic electrical system diagnosis, diagnosis and service of batteries, lighting systems, instrumentation, horns, wipers, electrical accessories, and other system components as relates to the requirements of the AUTO 125 - Automotive Electrical I course. Students are required to maintain a log of all tasks and clock hours completed. The cooperating supervisor and program faculty must approve the records before a grade is assigned and credit awarded. Student Learning Outcomes of the Course: Explain and demonstrate the relationship of AC/DC voltage, amperage and resistance (including all units of measurement) and be able to apply Ohm’s and Watt’s Laws to the construction, operation and troubleshooting of automotive electrical circuits. Identify and explain the operation and relationship of common electrical circuit components and the seven circuit conditions as they apply to: series, parallel and series/parallel automotive electrical circuits. Verify proper operation and troubleshoot electrical circuits/components using a digital volt-ohm meter (DVOM), test lights and jumper wires. Read various automotive wiring diagrams to identify circuit components and use as a “road map” to assist in troubleshooting electrical system circuits and problems. Demonstrate the knowledge of automotive starting battery construction, operation and performance ratings. Apply knowledge to safely perform maintenance procedures, all industry standard diagnostic tests and replace batteries within manufacturer’s specifications. Demonstrate knowledge of the construction and operation of common automotive lighting systems and apply this understanding to troubleshoot and repair malfunctioning circuits and components.
	AUTO 131 - Lab Practical I Credit Hours: 2 Lecture Hours: 0 Laboratory Hours: 6 Prerequisite(s): AUTO 115 and AUTO 125 Restriction(s): None Corequisite(s): AUTO 152 This is an automotive laboratory course that deals with the diagnosis and repair of common automotive problems. All diagnosis and repair is done under the supervision of faculty and staff. Service, diagnosis, and repair procedures are performed on customer-owned or College-owned vehicles to simulate working in the industry. Students also utilize this lab to perform required tasks related to the current semester courses. Student Learning Outcomes of the Course: Demonstrate correct use of hand tools and shop equipment. Perform routine maintenance/repair to passenger cars and light trucks. Demonstrate and apply diagnostic and repair skills in the areas of automotive chassis and electrical systems. Demonstrate respectable work place skills and safety procedures required by the automotive repair industry. Correctly analyze service information from computerized and conventional sources. Complete a work order that includes customer and vehicle information along with the concern, cause and correction of the vehicle.
	AUTO 135 - ASE Electrical II WE Credit Hours: 1 Lecture Hours: 0 Laboratory Hours: 6 Prerequisite(s): Successful completion of ASE test A6 (Electrical/Electronic Systems) Restriction(s): None Corequisite(s): None This course consists of a 90-hour work experience in a repair shop setting where the student will perform general electrical system diagnosis, starting and charging systems, lighting systems, instrumentation, horns, wipers, and electrical accessories as required in the laboratory component of AUTO 128 . Students are required to maintain a log of all tasks and clock hours completed. The cooperating supervisor and program faculty must approve the records before a grade is assigned and credit awarded. Student Learning Outcomes of the Course: Demonstrate entry level knowledge and comprehension of the construction and operation of various automotive and light duty truck systems. Apply operational knowledge to the diagnosis of faults in various automotive and light duty truck systems. Verify proper operation and troubleshoot electrical circuits/components using a digital volt-ohm meter (DVOM), test lights and jumper wires. Read various automotive wiring diagrams to identify circuit components and use as a “road map” to assist in troubleshooting electrical system circuits and problems. Demonstrate the knowledge of automotive starting battery construction, operation and performance ratings. Apply knowledge to safely perform maintenance procedures, all industry standard diagnostic tests and replace batteries within manufacturer’s specifications. Demonstrate knowledge of the construction and operation of common automotive lighting systems and apply this understanding to troubleshoot and repair malfunctioning circuits and components. Maintain, diagnose and repair automotive and light duty truck electrical and electronic systems. Explain what electrical current, voltage and resistance are and their effect is on each other. Describe the units of measure for voltage, amperage and ohms and be able to convert between units using prefixes and base units. Properly connect a digital volt-ohm meter (DVOM) to measure volts, voltage drop, ohms and amps and correctly interpret and apply the meter readings to diagnose and verify electrical circuits and their components.
	AUTO 136 - Auto Industry ASE WE II Credit Hours: 2 Lecture Hours: 0 Laboratory Hours: 12 Prerequisite(s): Approval of academic advisor Restriction(s): None Corequisite(s): None This course consists of a 180-hour work experience in a repair shop setting where the student will perform a variety of diagnostic and repair tasks with a focus on electrical, suspension, and engine performance as relates to the requirements of the AUTO 115 , AUTO 128 , and AUTO 138 courses. The student will be supervised by management (preferably ASE certified) of the participating shop. Students are required to maintain a log of all tasks and clock hours completed. The coordinating supervisor and program faculty must approve the records before a grade is assigned and credit awarded. Student Learning Outcomes of the Course: Demonstrate correct use of hand tools and shop equipment. Perform routine maintenance/repair to passenger cars and light trucks. Demonstrate and apply diagnostic and repair skills in the areas of automotive chassis and electrical systems. Demonstrate respectable work place skills and safety procedures required by the automotive repair industry. Correctly analyze service information from computerized and conventional sources. Complete a work order that includes customer and vehicle information along with the concern, cause and correction of the vehicle.
	AUTO 138 - Auto Engine Performance I Credit Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Prerequisite(s): AUTO 125 Restriction(s): None Corequisite(s): None This course includes the theory of operation, construction, maintenance, diagnosis and repair of basic engine performance systems. This encompasses: gasoline composition; fuel tanks, lines, filters, fuel pumps, manifolds, exhaust system, air intake system, introduction to electronic fuel injection and automotive ignition systems. The laboratory component of the course will include various activities that follow the Engine Performance task list of the National Automotive Technicians Education Foundation (NATEF) and the National Institute for Automotive Service Excellence (ASE). Student Learning Outcomes of the Course: Demonstrate entry level knowledge and comprehension of the construction and operation of various automotive and light duty truck systems. Apply operational knowledge to the diagnosis of faults in various automotive and light duty truck systems. Maintain, diagnose and repair all gasoline engine fuel system components, emission control devices and engine performance systems on various automobiles and light duty trucks. Maintain, diagnose and repair automotive and light duty truck gasoline engines. Demonstrate entry level employability and safety skills. Provide verbal and written diagnosis and repair descriptions.
	AUTO 148 - Lab Practical II Credit Hours: 2 Lecture Hours: 0 Laboratory Hours: 6 Prerequisite(s): AUTO 125 Restriction(s): None Corequisite(s): AUTO 128 and AUTO 138 This is an automotive laboratory course that deals with the diagnosis and repair of common automotive problems. All diagnosis and repair is done under the supervision of faculty and staff. Service, diagnosis, and repair procedures are performed on customer-owned or College-owned vehicles to simulate working in the industry. Students also utilize this lab to perform required tasks related to the current semester courses. Student Learning Outcomes of the Course: Demonstrate correct use of hand tools and shop equipment. Perform routine maintenance/repair to passenger cars and light trucks. Demonstrate and apply diagnostic and repair skills in the areas of automotive chassis and electrical systems. Demonstrate respectable work place skills and safety procedures required by the automotive repair industry. Correctly analyze service information from computerized and conventional sources. Complete a work order that includes customer and vehicle information along with the concern, cause and correction of the vehicle.
	AUTO 152 - Automotive Chassis I Credit Hours: 4 Lecture Hours: 3 Laboratory Hours: 3 Prerequisite(s): Enrollment in the Automotive Program Restriction(s): None Corequisite(s): None Classroom: The course includes the theory of operation, construction, maintenance, repair, and safety aspects of automotive and light truck brake and basic steering and suspension systems. The main emphasis is placed on maintenance/service and diagnostic troubleshooting through a reasonable understanding of chassis system theory and practical work experience. Laboratory: The laboratory components of the course covers chassis system service, maintenance, and diagnostic troubleshooting on automotive, light truck, and SUV’s vehicles. Faculty will introduce students to correct tool and equipment usage, personal, shop, and vehicle safety including environmental concerns. Service, diagnostic, and repair procedures are performed on student, customer, or college owned vehicles to simulate working in the automotive industry. Students perform a variety of lab assignments (tasks) that follow the guidelines of the National Automotive Technicians Education Foundation (NATEF) and the National Institute for Automotive Service Excellence (ASE). Student Learning Outcomes of the Course: Define and demonstrate safe workplace practices. Understand and apply basic hydraulic principles including Pascal’s law. Perform routine service and maintenance to passenger cars, light trucks and SUV’s as it relates to the brake, steering and suspension systems. Demonstrate diagnostic and repair knowledge/skills in the areas of brake, steering and suspension systems. Access and interpret diagnostic and service repair information from computerized and text based sources. Diagnose and repair a variety of brake, steering and suspension system related concerns on vehicles. Demonstrate respectable work place skills required by the automotive repair industry.

Page: 1 \| 2 \| 3 \| 4 \| 5 \| 6 \| 7 \| 8 \| 9

Contract All Courses | Print this page.

Print this Page

Course Descriptions

ACCT 115 - Financial Accounting

ACCT 125 - Managerial Accounting

ACCT 150 - Accounting for Small Business

ACCT 210 - Intermediate Accounting I

ACCT 220 - Intermediate Accounting II

ACCT 245 - Computerized Accounting

ACCT 250 - Federal Income Tax

ACCT 310 - Accounting Information Systems

ACCT 350 - Federal Income Tax

ACCT 400 - Auditing Class

ACCT 410 - Information Systems Audit and Control

AECT 100 - Architecture & Construction Orientation

AECT 110 - Construction Materials

AECT 150 - Statics & Strengths of Materials

AECT 250 - Struc. Steel & Reinf. Concrete

AECT 280 - Mechanical, Electrical, and Plumbing

AECT 300 - Design-Build Management

AECT 301 - Construction Mgt Competition

AECT 310 - Residential Building Systems II

AECT 320 - Mechanical Systems & Balancing

AECT 330 - Residential Millwork

AECT 340 - Estimating and Planning II

AECT 350 - Environmental Systems II

AECT 360 - Structural Theory

AECT 370 - Site Engineering

AECT 375 - Facilities Systems & Process Piping

AECT 380 - Career Seminar

AECT 390 - CM Internship I

AECT 395 - CM Internship II

AECT 400 - Construction Project Management

AECT 410 - Building Codes & Professional Practices

AECT 415 - Sustainable Building Practices

AECT 450 - Building Science

AECT 460 - Structural Steel Design

AECT 480 - Reinforced Concrete Design

AECT 496 - Advanced Study in Architectural Engineering Construction Technology - upper division

ALHT 106 - Culture and Healthcare

ALHT 202 - Statistics and Research Methods

ALHT 300 - Pathophysiology

ALHT 301 - Ethics in Healthcare

ALHT 304 - Death and Dying

ALHT 400 - Epidemiology

ALHT 401 - Health Policy

ALHT 500 - Health Policy and Technology in Healthcare

ALHT 501 - Leadership and Quality Improvement in Healthcare Systems

ANTH 100 - Cultural Anthropology

ANTH 110 - Human Origins

ANTH 296 - Advanced Study in Anthropology - lower division

ANTH 300 - Survey of World Cultures

ANTH 496 - Advanced Study in Anthropology - upper division

ARCH 110 - Computer Aided Residential Drawings

ARCH 115 - Freehand Drawing

ARCH 120 - Architectural Graphics

ARCH 125 - Architectural Design Graphics

ARCH 135 - Arch Design Fundamentals

ARCH 210 - Architectural Design I

ARCH 220 - Commercial Detailing

ARCH 240 - Architectural Design II

ARCH 250 - Architectural Digital Design I

ARCH 296 - Advanced Study in Architectural Technology - lower division

ARCH 300 - Architectural Digital Design II

ARCH 315 - Special Topics in Architecture

ARCH 330 - Architectural Design III

ARCH 370 - Architectural Design IV

ARCH 371 - Architectural Theory

ARCH 400 - Architectural Internship

ARCH 401 - Portfolio Preparation

ARCH 410 - Building Codes & Professional Practices

ARCH 430 - Architectural Design V

ARCH 470 - Architectural Design VI

ARCH 481 - Architectural Design VII

ARCH 485 - Thesis Research

ARCH 490 - Thesis Studio

ARCH 496 - Advanced Study in Architectural Technology - upper division

ARTS 103 - History of American Popular Music

ARTS 104 - Ceramics I

ARTS 105 - History of Country Music

ARTS 110 - History of Rock Music

ARTS 112 - Music in Black and White