Mar 28, 2024  
2016-17 BTC Catalog 
    
2016-17 BTC Catalog [ARCHIVED CATALOG]

Course Descriptions


 

Electrician

  
  • ELCN 131 DC Circuit Lab

    4 CR
    Emphasizing DC Electrical theory and Ohm’s law, series and parallel circuits are analyzed with hands-on experiments and commonly used test equipment.
    Prerequisite(s): ELCN 100 , ELCN 101 , ELCN 103  or concurrent
  
  • ELCN 132 AC Circuit Lab

    3 CR
    AC electrical theory is examined and verified with hands-on experiments utilizing standard test equipment
    Prerequisite(s): ELCN 102  and ELCN 131  or concurrent
  
  • ELCN 142 Residential Wiring Projects

    6 CR
    Project based lab. Student crews complete electrical construction projects including a model house wiring installation.
    Prerequisite(s): ELCN 101 , ELCN 103 , ELCN 125  or concurrent
  
  • ELCN 143 Electrical Distribution

    3 CR
    Electrical lab installation of services, panelboards, switches, and feeders.
    Prerequisite(s): ELCN 104 , ELCN 105 , ELCN 113  or concurrent
  
  • ELCN 151 Commercial Wiring Methods & Materials

    5 CR
    Installation of basic commercial electrical components and systems to meet recognized industry standards utilizing appropriate tools, wiring methods and materials.
    Prerequisite(s): ELCN 103  & ELCN 142  
  
  • ELCN 201 Electronics for Electricians

    2 CR
    Diagnose and repair of industrial control devices emphasizing electronic theory and industrial solid state devices.
    Prerequisite(s): ELCN 102  & ELCN 103  
  
  • ELCN 202 Machine Control Fundamentals

    5 CR
    Preparing for fabrication, diagnose and repair of industrial control devices emphasizing motor control theory, system wiring and diagrams.
    Prerequisite(s): ELCN 104  & ELCN 105  
  
  • ELCN 203 PLCs & VFDs

    5 CR
    This course is an in depth study of programmable logic controllers including configuring hardware and software for controlling devices that drive industrial machinery.
    Prerequisite(s): ELCN 201 , ELCN 202  
  
  • ELCN 214 Special Occupancies, Equipment & Conditions

    3 CR
    Examine and locate the National Electrical Code requirements and limitations for specialized circumstances such as hazardous areas, health care, industrial locations, assembly areas, alternate energy sources, elevators and commercial specialty equipment.
    Prerequisite(s): ELCN 112  
  
  • ELCN 251 Commercial & Renewable Energy Projects

    5 CR
    Students will build projects utilizing a variety of standard commercial and institutional techniques.
  
  • ELCN 261 Industrial Control Wiring Methods & Materials

    6 CR
    This course is a hand’s on lab exploring the design and construction of motor control systems. Control circuits are fabricated in industrial enclosures using control relays, sensors and motor starters.
    Prerequisite(s): ELCN 151  
  
  • ELCN 262 Specialty Industrial Wiring Projects

    5 CR
    This is an electrical construction lab class. Students will build projects utilizing a variety of standard industrial techniques.
    Prerequisite(s): ELCN 261  
  
  • ELCN 263 Automated Control Projects

    6 CR
    This is a hand’s on lab, integrating motor controls, programmable logic controllers, variable frequency drives and industrial wiring distribution.
    Prerequisite(s): ELCN 203  & ELCN 261  or concurrent
  
  • ELCN 280 Renewable Electrical Sources

    4 CR
    Explores new alternative electrical power sources from a design and build point of view with an emphasis on the NEC requirements.
  
  • ELCN 281 Electrical Estimating & Design

    3 CR
    Designing and estimating material and labor costs for a variety of electrical projects using catalogs, the internet and estimating software.
    Prerequisite(s): ELCN 103  

Emergency Medical Services

  
  • EMS 121 EMT I: Fundamentals of Emergency Care

    4 CR
    This course, first in a 3-course series, covers the basic structure of EMS, and the fundamentals of emergency patient care. Topics include: EMS systems, workplace safety and wellness, anatomy and physiology, medical terminology, vital signs, airway management and patient assessment.
    Prerequisite(s): Special Permission
  
  • EMS 122 EMT II: Medical Disorders and Emergencies

    4 CR
    This is the second course in the EMT series, and covers the common medical conditions, emergencies, and field treatment for acutely ill patients by EMS responders. Topics include: cardiovascular, respiratory, neurologic, psychiatric, endocrine and other non-traumatic medical emergencies.
    Prerequisite(s): EMS 121  
  
  • EMS 123 EMT III: Traumatic Emergencies and Special Circumstances

    4 CR
    In the third and final course in the EMT series, the student will learn how to deal with injuries caused in traumatic accidents, emergencies in special patient populations, such as pregnancy, neonates and pediatrics, and geriatrics. Students will also learn about other specialized EMS Operations, to include: emergency vehicle safe driving practices, incident management, interfacing with Advanced Life Support, and disaster response. A cumulative capstone written and practical skills exam will be given at course/series completion.
    Prerequisite(s): EMS 122  

Engineering Technology

  
  • CENG 101 Energy & Society

    3 CR
    Modern society is completely dependent on vast amounts of cheap energy, but the costs are high. Will we have enough usable energy for a planet of nine billion people? How do our choices in energy production impact the global and local environment? We will address these and other questions surrounding human energy use and work to understand the science, technology, and policy of energy use in the 21st century.
  
  • CENG 201 Energy Politics and Policy

    5 CR
    This course will allow students to understand the history of energy policy within the US; gain an understanding of the major actors in energy policy; and explore the implications for energy policy from local to global levels. A specific focus will be placed on energy issues as they pertain to the Pacific Northwest.
    Prerequisite(s): CENG 101   with a C or better.
  
  • CENG 220 Energy Generation and Conservation

    5 CR
    This course introduces the engineering and technical aspects of renewable energy systems. It emphasizes basic generation and conservation technologies of renewable energy generation systems. Topics include heat transfer, power, thermodynamics, energy storage, energy conversion.
    Prerequisite(s): CENG 101  with a C or better.
  
  • CET 102 Fundamentals Of Surveying I

    5 CR
    Emphasis is placed on familiarization with the different types of surveys and their purpose and teaches the student to be able to differentiate between “accuracy” and “precision.” It teaches the student to measure distances in a vertical direction and relate these measurements to a datum plane or elevation from sea level. Course also teaches the student how to measure directions from known points to find or establish other points and will enable the student to gain necessary skills in operating surveying instruments.
    Prerequisite(s): MATH 098  with a C or better or instructor permission.
  
  • CET 103 Fundamentals Of Surveying II

    5 CR
    Emphasis on field work with the Total Station and Digital Level. A traverse will be run and adjusted and a topo made of the enclosed ground.
    Prerequisite(s): CET 102   with a C or better.
  
  • CET 110 Construction And Highway Surveys

    5 CR
    Students will learn stakeout procedures for a variety of construction projects. In addition, the students will develop techniques to help the student learn to use horizontal and vertical curves in the field and office to join tangent lines.
    Prerequisite(s): ENGT 134  and CET 102  with a C or better.
  
  • CET 120 Zoning, Permitting & Platting

    5 CR
    Introduction to Whatcom County and City of Bellingham zoning ordinances and an introduction to the various state, county, and city permits associated with construction and land use in Whatcom County.
  
  • CET 141 Fundamentals Of GIS & GPS

    5 CR
    Students develop knowledge and designing skills in topology, features, attributes, relational operators, data capture, coverage editing, coordinate systems, and map projections.
    Prerequisite(s): MATH 098  with a C or better.
  
  • CET 142 Intermediate GIS

    5 CR
    An introduction to desktop mapping, focusing on the use of ArcView software in Geographic Information Systems applications.
    Prerequisite(s): ENGT 134  and CET 141  with a C or better.
  
  • CET 143 Advanced GIS Applications

    5 CR
    An advanced course in desktop mapping focusing on the use of the extensions in Geographic Information Systems applications.
    Prerequisite(s): CET 142   with a C or better.
  
  • CET 205 Survey of Public Lands

    5 CR
    This course will cover the basics of the Public Land Survey System (PLSS), when to use different reconstruction methods, and the correct techniques to determine information described on original survey data for the Public Lands.
    Prerequisite(s): CET 102   with a C or better.
  
  • CET 210 Boundary Law & Land Description

    5 CR
    Explores the importance of various laws dealing with the survey of land boundaries, and the State and Federal laws about ownership and title.
    Prerequisite(s): CET 103  with a C or better.
  
  • CET 215 Environmental Mapping

    5 CR
    Coursework includes current industry mapping techniques and equipment as it relates to environmental issues such as wetlands mapping and habitat restoration.
    Prerequisite(s): ENGT 134  and CET 102  with a C or better.
  
  • CET 220 GPS Systems

    5 CR
    Global Positioning System software will be used to adjust raw field data collected with Trimble 4000 SST receivers.
    Prerequisite(s): CET 215  with a C or better.
  
  • CET 225 Advanced Survey Seminar

    5 CR
    Offers opportunities for the second year student to study advanced techniques in GPS, GIS, Data Collection, Research, and Surveying/ Mapping Software. The structure is self-motivated and supports transition from college structure to jobs in the Surveying and Mapping profession.
    Prerequisite(s): CET 103  with a C or better.
  
  • CET 230 Estimating And Scheduling

    5 CR
    An introduction to the construction process, project scheduling, and estimation of concrete, rebar, and earthwork quantities.
    Prerequisite(s): CET 251  with a C or better.
  
  • CET 235 Construction Materials

    5 CR
    An introduction to the practices and procedures for the testing and placement of construction materials. This course covers basic steel stress, strain and thermal expansion. In depth coverage for testing and placing: soil, aggregate, asphalt and concrete. Also, included are standard inspection practices and construction documentation during and after the construction of sewer, water, storm, and roadway civil improvements.
  
  • CET 240 Earthmoving Fundamentals

    5 CR
    An introduction to earthmoving production fundamentals of construction equipment. The production of heavy equipment, including excavators, scrapers, trucks, bulldozers, and front end loaders is examined from a production prospective. In addition, earthwork conversions to and from loose cubic yards, bank cubic yards, and compacted cubic yards is introduced.
    Prerequisite(s): CET 251  with a C or better.
  
  • CET 251 AutoCAD Civil 3D I

    5 CR
    Study and use of the Civil Engineering and Survey industry-specific CAD software for computer aided drafting. Focuses on land development and survey applications with AutoCAD on Civil/Survey specific software applications.
    Prerequisite(s): ENGT 134  with a C or better or instructor permission.
  
  • CET 252 AutoCAD Civil 3D II

    5 CR
    Study and use of the Civil Engineering and Survey Industry specific CAD software for computer aided drafting. Focuses on roadway and infrastructure design with AutoCAD on Civil/Survey specific software applications.
    Prerequisite(s): CET 251  with a C or better.
  
  • COMP 101 Survey of Composites

    2 CR
    This course provides an introduction to the field of Composites Technologies, and provides an overview of workplace readiness skills.
  
  • COMP 121 Composites I

    5 CR
    This course is an introduction to composite design and fabrication utilizing clean-room and post-cure fabrication tools. The purpose of this course is to provide an introduction to hands-on composite fabrication. Within this course, students will gain experience designing and fabricating composite parts. The course will cover the fundamentals to vacuum bagging, pressure forming, and elevated temperature cures. Students will design and build a composite product combining knowledge of advanced composite materials and fabrication methods.
    Prerequisite(s): COMP 101  with a C or better and (Accuplacer Algebra score of 75 or MATH 098  with a C or better) and (Accuplacer Reading Comprehension score of 71 or RDG 085  with a C or better) and (Accuplacer Sentence Skills score of 71 or ENGL 092  with a C or better) and (completion of or concurrent enrollment in ENGR 115  or instructor permission).
  
  • COMP 122 Composites II

    5 CR
    Introduction to advanced composite manufacturing with emphasis on Vacuum Infusion, Closed Cavity, Light Resin Transfer and Prepreg technologies. Hands-on training in advanced manufacturing using vinyl ester, epoxy and prepreg, with common types of advanced fiber reinforcement processes.
    Prerequisite(s): COMP 101  with a C or better.
  
  • COMP 127 Tool Design

    5 CR
    Theory, application, and fabrication of tooling for fabrication and assembly of composite products
    Prerequisite(s): COMP 101  with a C or better.
  
  • COMP 135 Inspect, Test & Repair

    5 CR
    Composite materials manufacturing course providing knowledge and hands-on experience in the inspection and repair techniques of Advanced and Fiber Reinforced Polymer (FRP).
    Prerequisite(s): Completion of or concurrent enrollment in COMP 101  with a C or better.
  
  • ENET 100 Direct Current

    5 CR
    An introduction to the fundamental properties and applications of electricity. This course covers the basic principles of DC electronics such as; voltage, current and resistance, Ohm’s law, Joule’s law, Kirchhoff’s voltage and current laws, passive devices included resistors, capacitors, and inductors, circuit applications included maximum power transfer, superposition, Thevenin and Norton theorems. An introduction to magnetism which covers; magnetic fields, flux, density, permeability, retentivity, reluctance, and hysteresis. Students also learn how solder and understand the lab safety protocol.
  
  • ENET 120 Alternating Current

    5 CR
    An introduction and examination of the principles and applications of alternating current. Topics include period, frequency, phase angle, reactance, impedance, resonance, peak and rms values, resistive, apparent, reactance power, and power factor. Students continue their exploration of AC with transformers and filter circuits (low-pass, high-pass, band-stop and band-pass). Practical labs and project help the students understand circuit constructions and troubleshooting techniques.
    Prerequisite(s): ENET 100  with C or better.
  
  • ENET 130 Semi-Conductors

    5 CR
    This course introduces semiconductor discrete components such as; diodes, bipolar transistors, FETS, MOSFET, SCR, diacs, triacs, and UJT. Circuit applications include; switching, amplifiers, oscillators, and power supply circuits. Practical labs and project help the students understand circuit constructions and troubleshooting techniques.
    Prerequisite(s): ENET 120  with a C or better.
  
  • ENET 140 Operational Amplifier

    5 CR
    This course introduces the basic concepts of an operational amplifiers. Topics include different configurations such as; comparator, differential amplifier, open and close loop feedback, CMR and CMRR, inverting and non-inverting, voltage/current converter, summer circuit, instrumentation amplifier, precision rectifier, and active filters. Practical labs and project help the students understand circuit constructions and troubleshooting techniques.
    Prerequisite(s): ENET 130  with a C or better.
  
  • ENET 150 Digital

    5 CR
    This course introduces basic concepts of logic operations, circuit and functions. Topics include; number systems, digital codes and parity, logic gates, Boolean algebra, Karnaugh map, function of combinational logic, flip-flop, counters, adders, and memory devices. Practical labs and project help the students understand digital circuits and troubleshooting techniques.
    Prerequisite(s): ENET 140  with a C or better.
  
  • ENET 160 Electronic Communication

    5 CR
    This course introduces the fundamentals and applications of AM/FM modulation and transmitters/ Receiver circuits. Digital communication techniques, transmission of binary data, and transmission lines. Also introduce Networking and Local-Area networks, and internet technologies. Practical labs and project help the students understand communication circuits and troubleshooting techniques.
    Prerequisite(s): (ENET 150  and MATH& 141  with a C or better) or instructor permission.
  
  • ENET 212 Micro-Controller System I

    5 CR
    This course introduces the students to a simple micro-controller system using Arduino board. The first part is an introduction to system hardware such as; CPU, RAM, Flash, EEPROM, input and out, UART and I2C bus. The second part students write C language to use control structure, functions, array and strings, to control input and output of some electronics devices to do their labs as well as building their project. The C++ and the library codes also examined. Practical labs and project help the students understand both hardware and software and troubleshooting techniques.
    Prerequisite(s): (MATH& 141  and CS& 131  with a C or better) or instructor permission.
  
  • ENET 213 Micro-Controller System II

    5 CR
    The course introduces the ARM microcontroller device. Primary emphasis of using the peripheral features to implement the computer portion of embedded applications such as; memory, arithmetic unit (ALU), registers, timer, counters, serial, UART and I2C, GPIO ports, and clock oscillator. Programming the microcontroller will be based on C language that emphasizes on Reduced Instruction Set Computer (RISC) instruction set and registers. Students will learn the C writing source codes and compiling the program. Also using vendor’s development tools to trace and debug the codes if necessary. Practical labs and project help the students understand both hardware and software and troubleshooting techniques.
    Prerequisite(s): (ENET 212  and MATH& 141  and CS& 131  with a C or better) or instructor permission.
  
  • ENET 245 Mechatronics I

    5 CR
    This course introduces the open and close loop control systems, the Microprocessor-Based control and Operational Amplifiers and Signal Conditioning, sensors, switches and relays, direct current motor, stepper motor and alternating current motors, Electric, Hydraulic and Pneumatic actuators, and Mechanical Systems. Practical labs and project help the students to put theories into action and learn troubleshooting techniques.
    Prerequisite(s): (ENET 150  and MATH& 142  with a C or better) or instructor permission.
  
  • ENET 246 Mechatronics II

    5 CR
    This course is an introduction to basics of DCS, their applications, programming and troubleshooting. Also covers control principles, programmable logic controller and embedded controllers using the existing PLC cube and adding the Vendor POSC embedded controller kit. Practical labs and project help the students to put theories into action and learn troubleshooting techniques.
    Prerequisite(s): (ENET 245  and MATH& 142  with a C or better) or instructor permission.
  
  • ENET 250 Wireless Communication

    5 CR
    This course focuses on fundamental concepts that play a key role in the study of telecommunication systems such as transmission of data, voice, and video networks. Through lecture and direct experiments with telecommunications equipment students learn the fundamental techniques of signal transmission and impairment measurement, frequencies, harmonic distortion, voice and data switching, and the fundamental functions of data networking and services. Practical labs and project help the students to put theories into action and learn troubleshooting techniques.
    Prerequisite(s): (ENET 150   and MATH& 142  with a C or better) or instructor permission.
  
  • ENET 264 Emerging Technology

    5 CR
    This course is designed to keep students current with technology. Currently this course is an introduction to solar technology, nano-technology, and fuel cell (PEM) technologies. Students will learn the characteristics and the efficiency of the solar and PME fuel cell. Emphasis on clean energies and application. This course will change as new emerging technologies move to the forefront. Practical labs and project help the students to put theories into action and learn troubleshooting techniques.
    Prerequisite(s): (ENET 150  and MATH& 142  with a C or better) or instructor permission.
  
  • ENET 281 Robotics

    5 CR
    In this course students learn about the basic concepts of robot technology including major elements in a robotic system, understanding a robot’s linkages, joint-spherical geometry, motion transfer from axis motors, and programming robot motions in open loop and close loop environments. Practical labs and project help the students to put theories into action and learn troubleshooting techniques.
    Prerequisite(s): (ENET 150  and MATH& 142  and CS& 131  with a C or better) or instructor permission.
  
  • ENET 282 Certified Electronics Technician Test Prep

    3 CR
    This course prepares students for the nationally recognized Certified Electronics Technician (CET) test.
  
  • ENET 290 Capstone Project I

    2 CR
    This capstone project I is one of the three part series. This course emphasizes on some of the basic concepts of project management. Topics include: project selection and definition, need assessments, realistic design and implementation methodology, budget and delivery schedule. Students’ proposal must be completed and approved by their program instructors before the next capstone project.
    Prerequisite(s): ENET 140  with a C or better.
  
  • ENET 291 Capstone Project II

    2 CR
    This capstone project II is the second phase of the three parts series. This course emphasizes on construction, test and evaluation for the students’ projects. Topics include: procurement with critical components, prototype testing and evaluation, a power point presentation to highlight critical paths and challenges, alternative solutions to meet schedule delivery and overall accomplishments.
    Prerequisite(s): ENET 290  with a C or better or instructor permission.
  
  • ENET 292 Capstone Project III

    2 CR
    This capstone project III is the final phase of the overall project. This course emphasizes on deliverable. Topics include: workable prototype or product, fine tune product specification as defined in the project proposal, packaging, testing and characterization, written report with introduction, table of contents, product description, block diagrams, theory of operations, schematics, program listings, part list and costs. A final project presentation and demonstration will be required to fellow students, program advisors, instructors, faculty and staffs.
    Prerequisite(s): ENET 291  with a C or better or instructor permission.
  
  • ENGR 100 Engineering Orientation

    2 CR
    This course explores engineering and technology through class discussion, hands-on activities, and presentations by guest speakers. Topics include engineering disciplines, degree and transfer options, career opportunities, academic success strategies, and planning your program of study.
  
  • ENGR& 104 Introduction to Engineering & Design

    5 CR
    Course explores the role of teamwork, creativity, and communication in innovative engineering design. Topics include engineering design process, collaborative problem solving techniques, and computer applications. Students will develop their knowledge and skills in these areas through a series of hands-on design projects.
    Prerequisite(s): (Accuplacer Algebra score of 75 or MATH 098  with a C or better) and (Accuplacer Reading Comprehension score of 71 or RDG 085  with a C or better) and (Accuplacer Sentence Skills score of 71 or ENGL 092  with a C or better).
  
  • ENGR 115 Graphics

    5 CR
    This course is an introduction to the use of graphical techniques and standard practices used to communicate engineering design information. Students will learn graphics techniques, visualization skills, standards for object views and drawing sizes, orthographic projection, section views, proper dimensioning techniques, and tolerances. Freehand sketching is used to develop visualization skills and as an instrument for design conceptualization and communication.
    Prerequisite(s): (Accuplacer Arithmetic score of 50 or a C grade or better in MATH 090  or ABE 050  with a C or better) and (Accuplacer Reading Comprehension score of 71 or RDG 085  with a C or better) and (Accuplacer Sentence Skills score of 71 or ENGL 092  with a C or better).
  
  • ENGR 180 Parametric Modeling

    5 CR
    This course is an introduction to 3D CAD (computer aided design) with an emphasis on parametric solid modeling applications and usage. Topics include methods for creating solid model components, joining components to form assemblies, and generation of 2D manufacturing drawings from 3D solid models.
    Prerequisite(s): ENGR 115  with a C or better.
  
  • ENGR& 202 Digital Circuits

    5 CR
    This course introduces students to the skills, methods and theoretical knowledge needed to design, simulate and build combinational and sequential digital logic circuits. Using industry relevant CAD tools and design technologies, students will learn through homework and projects to design and implement a representative collection of digital logic circuits. Upon course completion, students will apply their design and use the same tools that are prevalent in industry to many digital electronics applications.
    Prerequisite(s): (ENET 130  and ENET 150  and MATH& 141  with a C or better) or Instructor Permission.
  
  • ENGR& 204 Electrical Circuits

    5 CR
    This course is a basic introduction to electrical engineering and circuit analysis. Topics covered include basic circuit and systems concepts, mathematical models of components, Kirchoff’s laws, resistors, sources, capacitors, inductors, and operational amplifiers. The solution of first and second order linear differential equations associated with basic circuit forms is required.
    Prerequisite(s): MATH& 151  and PHYS& 220 with a C or better or Instructor Permission
  
  • ENGR& 214 Engineering Statics

    5 CR
    Engineering Statics introduces students to the mechanics of rigid bodies in static equilibrium. Students will solve practical engineering problems involving the loads carried by structural components using vector analysis (both 2D and 3D) applied to rigid body systems and subsystems. Content includes static equilibrium, force and moment resultants, free body diagrams, distributed loads, trusses, frames and machines, internal forces, shear and moment diagrams, and friction.
    Prerequisite(s): MATH& 151  and PHYS& 221  with a C or better.
  
  • ENGR& 215 Dynamics

    5 CR
    Principles of dynamics, including Newton’s Laws. Analysis of the equations of motion of particles and rigid bodies, kinematics, dynamics, impulse, momentum, work and energy.
    Prerequisite(s): ENGR& 214 Engineering Statics  and MATH& 142 Precalculus II  each with a grade of 2.0 or higher or Instructor Permission.
  
  • ENGR& 225 Mechanics of Materials

    5 CR
    Introduction to the concepts of stress, deformation, and strain in solid materials. Includes relationships between loads on structural and machine elements and the stresses, deflection and load-carrying capacity of these elements under tension, compression, torsion, bending, and shear forces.
    Prerequisite(s): (ENGR& 214  and MATH& 152  with a C or better) or instructor permission.
  
  • ENGR 270 Introduction To Materials Science

    5 CR
    An introduction to Materials Science that includes the atomic, molecular, and crystalline structures of materials and their relationship to electrical, mechanical, thermal, and chemical properties, as well as an introduction to materials processing and fabrication techniques.
    Prerequisite(s): MATH& 151  and CHEM& 161  with a C or better.
  
  • ENGT 116 Advanced Graphics

    5 CR
    This course is a continuation of the mechanical engineering graphic technology foundation. It utilizes CAD to develop advanced drawing techniques in accordance with industry standards. Instruction includes projection techniques for points, lines, and planes; the purpose and application of auxiliary views; methods for developing more advanced principal views; dimensioning and tolerancing of parts for manufacture according to ASME/ANSI standards; and methods for representing threads and fasteners.
    Prerequisite(s): ENGR 115   with a C or better and (completion of or concurrent enrollment in ENGT 135  with a C or better).
  
  • ENGT 134 AutoCAD I

    5 CR
    This course is an introduction to CAD (Computer Aided Drafting), utilizing a “cookbook” approach to instruction. Students have immediate hands-on computer usage while applying basic command concepts and terminology. Basic drawing and editing techniques are reinforced with exercises designed to help the student reach an in-depth understanding.
  
  • ENGT 135 AutoCAD II

    5 CR
    This course is a continuation of AutoCAD I and utilizes intermediate drawing and editing tools. Coursework includes generating and editing dimensions and tolerances in CAD, methods for creating isometric drawings, paperspace techniques for printing/plotting to scale, applications and procedures for creating attributed blocks, creation of table, and the applications and procedures for using external references.
    Prerequisite(s): ENGT115 and ENGT 134  with a C or better.
  
  • ENGT 208 CAD Project 3D

    5 CR
    This is a project oriented design course in which students create a 3D solid model of an existing assembly or one of their own design. Each student will generate a complete working drawing set for their assembly including engineering details and assembly drawings in accordance with industry standards. A portfolio including preliminary sketches, detail drawings, and assembly drawings will be submitted.
    Prerequisite(s): ENGR 180  with a C or better and (completion of or concurrent enrollment in ENGT 116  with a C or better).
  
  • ENGT 215 Applied Statics

    5 CR
    This course is an introduction to engineering mechanics, focusing on the analysis of “static” (non-moving) structures. Students will use statics concepts to determine the external reaction loads and internal member forces for trusses, frames, and machines.
    Prerequisite(s): MATH& 142  with a C or better.
  
  • ENGT 216 Applied Mechanics Of Materials

    5 CR
    This course explores the effect of forces on engineering structures and the resulting internal stresses and deformations that develop. Students will apply statics and strength of materials concepts to determine size, shape, and material requirements for engineering components. Topics include an introduction to stress and strain, physical characteristics of components (size and shape), mechanical properties of engineering materials (strength, stiffness, etc.), and materials testing and composition.
    Prerequisite(s): ENGT 215  with a C or better.
  
  • ENGT 222 Advanced Parametric Modeling

    5 CR
    This course is a continuation of Parametric Modeling. Topics include more advanced methods for the creation of parts, assemblies, and 2D manufacturing drawings.
    Prerequisite(s): ENGR 180  with a C or better.
  
  • ENGT 223 Structural Detailing

    5 CR
    This course provides an introductory overview of structural drafting and design. Subject areas include specifications for structural members and ancillary components, design and construction work flow, drafting and design of bolted and welded connections, and standard structural design concepts. Students will utilize Bentley Pro-Steel software to create 3D design models. The 3D design models will be subsequently used to generate structural member detail drawings.
    Prerequisite(s): ENGT 116  and ENGT 135  with a C or better.
  
  • ENGT 224 Process Piping Design

    5 CR
    This course provides an introductory overview of process pipe drafting and design. It covers various topics including: piping concepts/terminology, pipe and fitting specifications, piping symbol representation, valves and instrumentation, process piping equipment. Students will utilize AutoCAD Plant 3D software to create flow diagrams and 3D design models from piping specifications according to industry standards. The 3D design models will be used to generate a variety of standard pipe drawings including plans/elevations, isometrics, spool drawings.
    Prerequisite(s): ENGT 116  and ENGT 135  with a C or better.
  
  • ENGT 233 Intro To CATIA

    5 CR
    This course is an introduction to solid modeling using CATIA V5 CAD (computer aided design) software. Topics include methods for creating solid model components, joining components to form assemblies, and generating 2D manufacturing drawings from 3D solid models.
    Prerequisite(s): ENGR 115  with a C or better.
  
  • ENGT 250 Capstone Project

    5 CR
    This is a project oriented design course in which students draw on skills developed throughout the program to complete an instructor selected project. Topics are chosen based on real world significance, relevance and breadth of the skill set required, and available on-campus project opportunities. Projects may be individual or group based and typically involve several or all of the following completion tasks; 2D CAD drafting, 3D solid modeling, statics analysis of structural loads, sizing of members based on strength of materials, geometric and trigonometric calculations, data exchange, etc.
    Prerequisite(s): ENGR 180  and ENGT 116  and ENGT 135  with a C or better.
  
  • ENGT 291 Interdisciplinary Design Project I

    2 CR
    Design projects open to all students in design and manufacturing related fields. Class structure guides interdisciplinary student teams through a process of conceptualizing a project, developing, and documenting a detailed design, fabricating a prototype, testing, analysis, and reporting. All students are engaged in all aspects of their project regardless of their home program or discipline. Design projects may be oriented toward regional design competitions. Specific project requirements are tailored to student’s educational and practical experience levels.
    Prerequisite(s): Instructor permission
  
  • ENGT 292 Interdisciplinary Design Project II

    2 CR
    Design projects open to all students in design and manufacturing related fields. Class structure guides interdisciplinary student teams through a process of conceptualizing a project, developing and documenting a detailed design, fabricating a prototype, testing, analysis, and reporting. All students are engaged in all aspects of their project regardless of their home program or discipline. Design projects may be oriented toward regional design competitions. Specific project requirements are tailored to students’ educational and practical levels.
    Prerequisite(s): Instructor permission
  
  • ENGT 293 Interdisciplinary Design Project III

    2 CR
    Design projects open to all students in design and manufacturing related fields. Class structure guides interdisciplinary student teams through a process of conceptualizing a project, developing and documenting a detailed design, fabricating a prototype, testing, analysis, and reporting. All students are engaged in all aspects of their project regardless of their home program or discipline. Design projects may be oriented toward regional design competitions. Specific project requirements are tailored to students’ educational and practical levels.
    Prerequisite(s): Instructor Permission

English

  
  • AENGL 100 Applied English

    5 CR
    This applied English course focuses on the workplace communication skills needed to send, receive, and process oral and written information. Along with a review of writing fundamentals, learners will use principles of clear communication, professionalism, and cultural awareness in occupational contexts. Learners will sharpen their reading, writing, and presentation skills.
    Prerequisite(s): Accuplacer Reading Comprehension score of 71 or a C grade in RDG 085  , and Accuplacer Sentence Skills score of 71 or a C grade in ENGL 092  .
  
  • ENGL& 101 English Composition I

    5 CR
    A composition course in which students read, analyze, and write essays using a variety of rhetorical strategies, as well as develop and verbally express ideas clearly and effectively. The critical reading of essays will provide a basis for the student’s own critical writing, which will reflect a command of college-level literacy standards. Attention to writing fundamentals and stylistic techniques will also be included. Word processing, email and internet knowledge required.
    Prerequisite(s): Accuplacer Reading Comprehension score of 85 or B grade in RDG 085 , and Accuplacer Sentence Skills score of 86 or B grade in ENGL 092   or C grade in AENGL 100 .
  
  • ENGL& 102 English Composition II

    5 CR
    Intermediate academic essay writing. Emphasis on critical reading and writing, synthesis of cross-disciplinary texts, documentation of sources and argumentation.
    Prerequisite(s): ENGL& 101  with a C grade.
  
  • ENGL& 235 Technical Writing

    5 CR
    This course is designed to help students report technical information clearly, completely, and persuasively. Technical writing shares many of the same concerns of other kinds of writing, such as attention to Purpose, Readability, and most significantly, Audience. This course is designed to provide instruction and practice in creating practical and effective documents for students in medical, scientific, technical, and other professional fields.
    Prerequisite(s): ENGL& 101  with a C grade.
  
  • ENGL 310 Business Communications

    5 CR
    This course focuses on audience-oriented communication in the business environment. Course content includes writing reports, proposals, memoranda, and e-mails; graphical presentation of data using Excel; and developing and delivering presentations using PowerPoint and other visual aids. Students will develop and demonstrate these communication skills individually, in smaller groups, and in presentations to larger audiences.
    Prerequisite(s): Admission to the BASOPS program

Environmental Sciences

  
  • ENVS& 101 Fundamentals of Environmental Science

    5
    Basic lab science course designed to give students a solid foundation in ecology and current human disturbances of ecological systems. Topics will include basic ecosystem structure and function, including energy flow, biochemical cycles, limiting factors, climate, population dynamics, and community interactions. Course will also focus on human population growth, pollution of various ecosystems, and agriculture. Special focus in lab will be on understanding aquatic ecosystems and human induced disturbances of marine, lake, and riparian systems.
    Prerequisite(s): Accuplacer Reading Comprehension score of 85 or B grade in RDG 085  , and Accuplacer Sentence Skills score of 86 or B grade in ENGL 092   or C grade in AENGL 100  .
  
  • ENVS 151 Basic CSTOP Course

    1 CR
    Developed by Construction Safety Professionals to provide superior Safety Training, CSTOP is an industrial and heavy construction safety training and orientation program designed to provide contractor employees with a better than basic understanding of hazards and safety procedures associated with work in highly hazardous work areas.

Fisheries

  
  • AQSCI 186 Rivers, Lakes, and Streams

    5 CR
    A lecture, lab, and field based course that focuses on the ecological, physical, and chemical components of rivers, lakes, and streams. Topics covered include: stream classification methodology, hydrological budgets, flow measurement, lake/pond mapping, pond management, aquatic plant identification, and aquatic macro-invertebrate sampling and identification.
  
  • AQSCI 211 Fundamentals of Fisheries Biology

    5 CR
    Introduction to the major groups of fishes with particular emphasis on fishes of North America. Lecture, laboratory, and field work will introduce students to the fundamentals of how and why fin fish function. Identification and classification, anatomy and physiology, age and growth, reproduction, and behavior will be studied.
    Prerequisite(s): FISH 111 .
  
  • AQSCI 266 Aquatic Habitat Assessment

    4 CR
    This course is intended to provide students with a set of techniques for obtaining aquatic habitat data. Students will learn common methods used by agencies to inventory aquatic habitat, analyze habitat quality, monitor effects of land use, and assess habitat improvement activities.
    Prerequisite(s): FISH 111 .
  
  • FISH 100 Introduction to Safety

    1 CR
    Proper safety precautions in the workplace will be emphasized. Safety is taught in all courses as it applies to the task or work area.
  
  • FISH 105 Water Quality

    3 CR
    A lecture, lab, and field based course that provides students with instruction on how water quality assessments of fresh and marine waters are made, with emphasis on the theoretical and practical principles underlying water quality assessments. The course will focus on the most commonly used and practical techniques of analyzing physical, biological, and chemical parameters.
  
  • FISH 111 Salmonid Biology

    3 CR
    Identification of salmon and trout, life cycles and the characteristics of each of the species will be examined in this course.
  
  • FISH 125 Sampling Techniques I

    3 CR
    Students will identify and use the methods of sampling fish for numbers, age, and disease.
  
  • FISH 133 Hatchery Operations I

    5 CR
    This course provides students with the tools and skill sets to work in hatcheries, thereby affording them the ability to gain experience with brood stock, eggs and hatchery equipment.
  
  • FISH 136 Spawning Techniques I

    6 CR
    Students will learn proper fish spawning techniques as utilized by state, federal and private hatcheries. They will spawn fish at the college hatchery and other local hatcheries to become proficient in these skills.
 

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