CSU Maritime Academy 2021-2022 [ARCHIVED CATALOG]
Course Descriptions
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Definitions
A prerequisite is an academic requirement that must be completed prior to enrolling in a course.
A co-requisite is an academic requirement that must be taken concurrently with a course.
♦ Denotes a course that fulfills STCW (Standards of Training, Certification, and Watchkeeping for Seafarers) requirements. US Coast Guard license program students must achieve a grade of C- or higher in order to pass an STCW course.
(CSL) Denotes that these courses have a community service component, which may be in addition to regular class hours or part of the course itself, as indicated.
Academic Department/School Designations
ATH |
Athletics |
BA |
Business Administration |
CC |
Culture & Communication |
ET |
Engineering Technology |
XL |
Extended Learning |
GSMA |
Global Studies and Maritime Affairs |
LIB |
Library |
MT |
Marine Transportation |
MPM |
Maritime Policy and Management |
ME |
Mechanical Engineering |
NS |
Naval Science |
SM |
Sciences & Mathematics |
The academic department designation with the course description determines the department that hosts the course.
All courses are graded using the A–F system unless otherwise specified.
Course Numbering System
0 – 99: remedial courses prior to Fall 2018
100 – 299: .lower division
300 – 499: upper division
Electives
Scheduled general electives can be found in the searchable online class schedule using Course Attribute value for individual electives. These electives are also identified according to their designation within the five areas of the CSU General Education requirements.
- American Institutions I Elective
- American Institutions II Elective
- Area A3 Critical Thinking Electives
- Area C1 Arts Electives
- Area C2 Humanities Electives - Lower Division
- Area C2 Humanities Electives - Upper Division
- Area D Social Science Electives - Lower Division
- Area D Social Science Electives - Upper Division
- Area E Lifelong Understanding Electives
- Area B2 Life Science Electives
- Area B3 Life or Physical Science Lab Electives
- Area B1 Physical Science Electives
- Area B4 Math Electives
- Foreign Language Electives Semester 1
- Foreign Language Electives Semester 2
- Major Electives
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Mathematics |
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MTH 200L - Algebra for Calculus Units: 1 Covers the basic algebra needed for Calculus. Topics include equations and inequalities, polynomials, rational expressions, ration exponents, roots, radicals, quadratic equations, graphing equations, and functions. SM Graded: Credit/No Credit |
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MTH 205 - Calculus for Business Class Hours: 3, Units: 3 Prerequisite(s): MTH 100 with a C- or higher Focuses on basics of calculus and the application of this topic to business decision-making and problem solving. Students will concentrate on formulae that will be performed on Excel later in the curriculum. The course will present math theory and math models. Exercises in critical thinking and model building will be introduced, along with the application of these two tools to the quantitative analysis of business problems. SM |
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MTH 210 - Calculus I Class Hours: 4, Units: 4 General Education: Area B4 Mathematics/Quantitative Reasoning - must meet minimum grade of C- or better in order to earn General Education credit. Prerequisite(s): MTH 100 or equivalent with a C- or higher Introduction of functions and limits, differentiation, applications of differentiation, integration, and applications of the definite integral. SM |
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MTH 211 - Calculus II Class Hours: 4, Units: 4 Prerequisite(s): MTH 210 with a C- or higher An introduction to additional methods of integration and improper integrals. Presented are trigonometric and hyperbolic functions and their inverses; infinite sequences and series; and a brief introduction to linear, ordinary first, and second-order differential equations. SM |
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MTH 212 - Calculus III Class Hours: 4, Units: 4 Prerequisite(s): MTH 211 with a C- or higher An introduction to the algebra and calculus of vectors. Presented are functions of several variables and partial differentiation, as well as multiple integration and vector analysis. SM |
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MTH 215 - Differential Equations Class Hours: 3 Units: 3 Prerequisite(s): MTH 211 with a C- or higher First and second-order differential equations with constant coefficients. Higher order linear differential equations. Linear systems and eigenvector methods. Emphasis on engineering applications. SM |
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MTH 250 - Introduction to Linear Algebra Class Hours: 4, Units: 3 General Education: Area B4 Mathematics/Quantitative Reasoning - must meet minimum grade of C- or better in order to earn General Education credit. Prerequisite(s): MTH 211 with a C- or higher Theory and applications of linearity, including vectors, matrices, systems of linear equations, dot and cross products, determinants, linear transformations in Euclidean space, linear independence, bases, eigenvalues, eigenvectors, and diagonalization. Formerly MTH 310. SM |
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MTH 390 - Independent Study An Independent Study course is substantial study above and beyond the regular offerings in the Academy catalog. One to three units of credit, determined prior to registration, will be granted for Independent Study. The student must arrange with an Academy faculty member to be the Independent Study Advisor. Grading is typically by letter grade, although the student may request the CR/NC grading basis. An approved Application for Independent Study must be on file in the Student Records Office by the end of the normal add period. SM |
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MTH 395 - Special Topics Special topic courses are intended to enable each department to offer an elective course of study when faculty scholarship activities or the expertise of visiting faculty may afford a unique and worthwhile learning experience. Check the course schedule for current offerings. SM |
Mechanical Engineering |
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ME 195 - Special Topics ME |
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ME 220 - Computer Aided Engineering Class Hours: 2, Units: 2 STCW Requirement: ♦ Prerequisite(s): None Familiarizes students with virtual product development and fundamentals of parametric design and solid modeling using advanced engineering software tools. Complex component design, assembly design and the development of working drawings are also covered. Students participate in Team Design/Reverse Engineering Projects. ME |
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ME 230 - Engineering Materials Class Hours: 3, Units: 3 Prerequisite(s): CHE 110 Examination of the properties of materials from the atomic level through the molecular levels, looking at crystal structure. Emphasis is on metals, but nonmetals are discussed. Mechanical properties, creep, fatigue, corrosion, and failure characteristics are discussed. Phase Diagrams and thermal processing are also studied. Applying material properties in design is also discussed. ME |
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ME 232 - Engineering Statics Class Hours: 3, Units: 3 Prerequisite(s): PHY 200 Analysis of particles and rigid bodies at rest, using vector methods. Topics include the concepts of forces, moments, and equivalent force systems, calculation and use of centroids, equilibrium of rigid bodies, force analysis of trusses, frames, and machines, internal forces in structural members, and friction. ME |
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ME 240 - Engineering Thermodynamics Class Hours: 3, Units: 3 Prerequisite(s): PHY 200 Study of the basic principles of thermodynamics and their applications to engineering processes and cycles. Topics include study of the first and second laws and the application of these laws to thermodynamic systems, with emphasis on power and refrigeration cycles. ME |
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ME 330 - Engineering Dynamics Class Hours: 3, Units: 3 Prerequisite(s): ME 232 , MTH 212 Analysis of particles and rigid bodies in motion using vector methods, calculus, and analytical geometry. Topics include kinematic analysis of motion and relative motion, kinetic analysis of forces and motion, rotation and translation of rigid bodies, work-energy methods, and impulse-momentum methods. ME |
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ME 332 - Mechanics of Materials Class Hours: 3, Units: 3 Prerequisite(s): ME 230 , ME 232 , MTH 211 Application of stress and strain in design and analysis of simple structural members under load. Stresses and deformations in members with a single load in tension, torsion, shear or bending moment are analyzed, followed by the transformation of stresses and effects of combined loads. The analysis of statically indeterminate structures is also included. ME |
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ME 339 - Material/Mechanical Lab Class Hours: 1, Units: 2 Prerequisite(s): ME 332 , ME 360 Co-requisite(s): ME 339L Principles of material science, mechanics of materials, and dynamics - applied, reinforced, and assessed through a series of experiments. The experiments involve calibration of instruments, measurement of mechanical quantities using data acquisition systems, analysis of data in order to obtain desired results, estimates of uncertainties in the results, and comparison of results with predicted outcomes based on theory. Experimental theory, procedures, and results are presented in formal written reports as well as oral presentations. ME |
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ME 339L - Material/Mechanical Lab Lab Lab Hours: 2 Co-requisite(s): ME 339 ME |
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ME 340 - Engineering Fluid Mechanics Class Hours: 3, Units: 3 Prerequisite(s): MTH 212 , ME 232 Theory and fundamental principles of incompressible fluid flows. Topics include hydrostatic fluids, continuity, linear momentum, Bernoulli equations for control volumes, dimensional analysis, viscous duct flows, boundary layer flows, centrifugal and axial flow pumps, and pump performance curves and similarity rules. ME |
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ME 342 - Refrigeration and Air Conditioning Class Hours: 3, Units: 3 Prerequisite(s): ME 240 Application of principles of thermodynamics and fluid mechanics to selection and performance evaluation of air conditioning and refrigeration systems. Topics include vapor-compression cycle performance, load calculations, refrigeration system component characteristics, refrigerant characteristics, environmental responsibilities, psychometrics and basic conditioning processes, and system balancing of refrigeration systems. Absorption refrigeration systems and cooling tower performance are also studied. ME |
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ME 344 - Heat Transfer Class Hours: 3, Units: 3 Prerequisite(s): ME 240 , ME 340 , MTH 215 Study of the fundamental mechanisms of the transfer of energy in the form of heat, including conduction, convection, and radiation. Topics include steady and transient conduction, free and forced convection, radiation, and heat exchanger analysis and design. ME |
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ME 349 - Fluid/Thermal Lab Class Hours: 1, Units: 2 Prerequisite(s): ME 344 , ME 360 Co-requisite(s): ME 349L Principles and applications of fluid mechanics, thermodynamics and heat transfer through a series of laboratory experiments. Experiments to demonstrate fluid flow measurements, the first and second laws of thermodynamics, conduction and convection heat transfer, heat exchanger analyses and performance, and gas turbine and gasoline engine cycles. Acquisition and statistical analyses of experimental data, and professional laboratory reports are also included. ME |
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ME 349L - Fluid/Thermal Lab Lab Lab Hours: 2 Co-requisite(s): ME 349 ME |
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ME 350 - Electromechanical Machinery Class Hours: 3, Units: 3 Prerequisite(s): ENG 250 , ENG 250L Co-requisite(s): ME 350L This course covers the fundamentals of magnetism, magnetic circuits, and transformers. Included are principles and operation of series, shunt, compound DC generators and motors; single-phase and three-phase AC generators, synchronous and induction AC motors, DC and AC motor controllers, and stepper motors; and system protective devices and safety. ME |
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ME 350L - Electromechanical Machinery Lab Lab Hours: 2, Units: 1 Prerequisite(s): ENG 250 , ENG 250L Co-requisite(s): ME 350 Supports instruction and theory of ME 350 using handson motor operation and analysis. ME |
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ME 360 - Instrumentation and Measurement Systems Class Hours: 2, Units: 2 Prerequisite(s): ENG 210 , ENG 250 , ENG 250L Co-requisite(s): ME 360L Measurement techniques for mechanical testing: types of signals, dynamic response of measurement systems, frequency response, uncertainty analysis, types of instruments, basic input circuits, signal conditioning, computer based data acquisition, sampling, A/D conversion, time and frequency analysis, statistical analysis of data. ME |
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ME 360L - Instrumentation and Measurement Systems Lab Lab Hours: 2, Units: 1 Prerequisite(s): ENG 210 , ENG 250 , ENG 250L Co-requisite(s): ME 360 Data acquisition using a PC and LabView. Construction and use of basic input circuits. Use of signal conditioning to improve the quality of measurements. Calibration and use of common instruments, including strain gages, thermocouples, photovoltaic cells, RTDs, and accelerometers. Examination of the dynamic response of instruments. Time domain and frequency domain analysis of data. Presentation of data. Uncertainty estimates of measured data. Output of control signals. A final project is required. ME |
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ME 390 - Independent Study An Independent Study course is substantial study above and beyond the regular offerings in the Academy catalog. One to three units of credit, determined prior to registration, will be granted for Independent Study. The student must arrange with an Academy faculty member to be the Independent Study Advisor. Grading is typically by letter grade, although the student may request the CR/NC grading basis. An approved Application for Independent Study must be on file in the Student Records Office by the end of the normal add period. ME |
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ME 392 - Mechanical Design Class Hours: 3, Units: 3 Prerequisite(s): ME 332 Two parts are covered in this course. Part one represents the general overview of fundamentals on applied loads, material properties, stress and stains, stress concentrations, static as well as dynamic failure theories, and some tribiological considerations. Part two will relate these fundamentals to various machine elements, such as columns, thin and thick-walled cylinders, shafting and associated parts, bearings, gears fasteners and power screws, springs, brakes and clutches, and flexible machine elements. A design project from the text will be assigned to each group. ME |
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ME 394 - Fluid/Thermal Design Class Hours: 3, Units: 3 Prerequisite(s): ME 344 This course covers analysis and design aspects of fluid and thermal systems. Included are instruction in piping systems, with the economics of pipe size selection and the sizing of pumps for systems, as well as double pipe, shell and tube, and cross flow heat exchangers: configuration, selection, analysis, and design. ME |
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ME 395 - Special Topics Special topic courses are intended to enable each department to offer an elective course of study when faculty scholarship activities or the expertise of visiting faculty may afford a unique and worthwhile learning experience. Check the course schedule for current offerings. ME |
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ME 429 - Manufacturing Processes Lab Class Hours: 1, Lab Hours: 1 Units: 1 Prerequisite(s): EPO 215 , ME 220 Co-requisite(s): ME 494 Principles of manufacturing processes in the areas of metal removal, forming, joining, casting, and fundamentals of numerical control. Study of manufacturing includes design aspects, material considerations, review of latest methods, and numerical controlled machining utilizing computer graphics and solid modeling. (Pro/Engineer and Pro/Manufacturing.) ME |
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ME 430 - Mechanical Vibrations Class Hours: 3, Units: 3 Prerequisite(s): MTH 215 , ME 330 Analysis of mechanical systems undergoing vibration. Topics include free response of vibrating systems, response to harmonic excitation, response to general excitation, analysis of multi-degree of freedom systems using matrix methods, and techniques to suppress vibration. In addition, a series of laboratory experiments are done to demonstrate the theory learned in class. ME |
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ME 432 - Machinery Design Class Hours: 3, Units: 3 Prerequisite(s): ME 330 , ME 332 This course will cover kinematics and dynamics of machinery and the synthesis of mechanisms to perform desired motions and tasks of mechanisms using linkages, gears, cams, and actuators. Analysis of mechanisms will be studied to determine their rigid-body dynamic behavior. Position, velocity, and acceleration of mechanisms and force analysis of mechanisms will be covered. ProE Mechanism, which is a virtual prototyping tool for mechanism analysis and design, will be demonstrated. Students will use ProE/Creo to design, animate, analyze, and optimize complex threedimensional mechanisms. ME |
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ME 436 - Mechatronic System Design Class Hours: 2 Units: 2 STCW Requirement: YES Prerequisite(s): ENG 250 , ME 330 Introduction to a multidisciplinary field that combines electronics, control systems, mechanical design and simulation. Simulation and design of mechatronic systems with sensors, electronic controllers and mechanical actuators. Selection and mathematical modeling of system elements including common sensors, actuators and various electronic controllers. ME |
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ME 436L - Mechatronic System Design Lab Lab Hours: 2 Units: 2 STCW Requirement: YES Prerequisite(s): ENG 250 ME 330 Co-requisite(s): ME 436 Laboratory supporting ME 436 Mechatronics System Design |
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ME 440 - Advanced Fluid Mechanics and Thermodynamics Class Hours: 3, Units: 3 Prerequisite(s): ME 240 , ME 340 Advanced topics in gas dynamics, including compressible flow analysis of converging-diverging nozzles, normal and oblique shock waves, compressible duct flow with friction; and advanced topics in thermodynamics, including irreversibility, availability, and second-law analysis of thermodynamic systems, gas and vapor mixtures, chemical reactions, and thermodynamics of propulsion systems with applications. ME |
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ME 442 - Heating, Ventilation, and Air Conditioning Design Class Hours: 3, Units: 3 Prerequisite(s): ME 240 , ME 340 Analysis and design of air conditioning systems for industrial and commercial applications. Topics include psychometrics, heating and cooling loads, HVAC systems and controls, infiltration, ventilation, fan performance, and duct design. ME |
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ME 444 - Energy Systems Design Class Hours: 3, Units: 3 Prerequisite(s): ME 344 Applications of fundamentals of thermodynamics, fluid mechanics, heat transfer in design, analysis, and selection of power production systems including steam power plants, gas turbines, and auxiliary power units; and heat exchange systems. Topics also include economic evaluation and preliminary cost of estimation of energy systems. A term paper that requires oral presentation and written report on a topic related to energy is also required. ME |
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ME 460 - Automatic Feedback Control Class Hours: 3 Units: 3 STCW Requirement: YES Prerequisite(s): MTH 215 , ME 360 , ME 360L Co-requisite(s): ME 460L Study of dynamic system modeling for various types of engineering systems. Analysis of dynamic systems using Laplace transform and state space methods. Open and closed loop stability. Design of feedback controllers using root-locus and frequency response techniques. Extensive use of MATLAB for analysis and simulation.
ME |
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ME 460L - Automatic Feedback Control Lab Lab Hours: 2, Units: 1 Prerequisite(s): MTH 215 , ME 360 , ME 360L Co-requisite(s): ME 460 Supports instruction and theory of ME 460 using MATLAB modeling and simulation. Hands-on lab and case studies are performed. ME |
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ME 462 - Experimental Methods in Mechanical Engineering Class Hours: 1 Units: 1 General Education: Area A1 Oral Communication Prerequisite(s): ENG 112 ME 332 ME 340 ME 360 ME 360L Co-requisite(s): ME 462L Principles and applications of experiments in fluid mechanics, material science, mechanics, and thermodynamics. Technical communication, both oral and written, of the entire experimental process. |
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ME 462L - Experimental Methods in Mechanical Engineering Laboratory Lab Hours: 1 Units: 2 Prerequisite(s): ENG 112 ME 332 ME 340 ME 360 ME 360L Co-requisite(s): ME 462 Laboratory supporting ME 462 Experimental Methods in Mechanical Engineering. |
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ME 490 - Engineering Design Process Class Hours: 3, Units: 3 General Education: Area A1 Oral Communication Prerequisite(s): ENG 112 ME 332 , ME 340 , ME 360 Introduction to the engineering design processes. Topics include identifying objectives and constraints, generating concepts, background research including finding appropriate engineering standards, application of analytical and numerical models for design, evaluating design alternatives, and communication of work to a wide range of audiences. ME |
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ME 492 - Project Design I Class Hours: 2 Units: 2 Prerequisite(s): ME 490 Co-requisite(s): ME 492L First of two courses taken sequentially in the application of enginerring design principles. Study and application of techniques including problem definition, concept generation, and decision making. Practice of skills including written and oral communication, teamwork, ethics and demonstrating societal and/or environmental. ME |
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ME 492L - Project Design I Lab Lab Hours: 3 Units: 1 Prerequisite(s): ME 490 Co-requisite(s): ME 492 Directed group laboratory with technical advisors for projects in ME 492 Project Design I. |
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ME 494 - Project Design II Class Hours: 2 Units: 2 Prerequisite(s): ME 492 Co-requisite(s): ME 494L Second of two courses taken sequentially in the application of enginerring design principles. Study and application of techniques including prototyping and testing. Practive of skills including written and oral communication, teamwork, ethics and demonstrating societal and/or environmental responsibility. ME |
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ME 494L - Project Design II Lab Class Hours: 3 Units: 1 Prerequisite(s): ME 492 Co-requisite(s): ME 494 Directed group laboratory with technical advisors for projects in the ME 494 Project Design II. |
Nautical Science |
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NAU 102 - Navigation I Class Hours: 3, Units: 3 STCW Requirement: YES Prerequisite(s): MTH 100 Co-requisite(s): NAU 102L Introduces the basic tools and theory of piloting. Elements include basic coastal piloting, using terrestrial features and various plotting systems and techniques. Chart interpretation, plotting, and correction are emphasized, as are passage planning and navigation cross-checking. Emphasis is placed on neatness and precision and, toward the end of the course, speed in arriving at basic piloting solutions. Provides the foundation upon which all subsequent navigation courses will build. MT |
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NAU 102L - Navigation I Lab Lab Hours: 2, Units: 1 Prerequisite(s): MTH 100 Co-requisite(s): NAU 102 Introduces the basic tools and theory of piloting. Elements include basic coastal piloting, using terrestrial features and various plotting systems and techniques. Chart interpretation, plotting, and correction are emphasized, as are passage planning and navigation cross-checking. Emphasis is placed on neatness and precision and, toward the end of the course, speed in arriving at basic piloting solutions. Provides the foundation upon which all subsequent navigation courses will build. MT |
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NAU 103 - Introduction to Marine Transportation Class Hours: 3, Units: 3 General Education: Area E Lifelong Learning Introduction to the field of commercial marine transportation. This course provides a broad understanding of the maritime industry and relates the students’ work and studies at Cal Maritime to the maritime world. It includes American maritime history, governmental policies and regulations, vessel and stevedore company organization, principles of foreign trade, documentation, and the various related organizations, both public and private. MT |
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NAU 104 - Shipboard Security and Responsibility Class Hours: 1, Units: 1 STCW Requirement: ♦ Prerequisite(s): None Required for seafarers, VPDSD (Vessel Personnel Designated with Security Duties), a mid-level security course, addresses knowledge needed for mariners with designated security duties in connection with a Ship Security Plan (SSP) to perform their duties in accordance with the requirements of Chapter XI-2 of SOLAS 74 as amended, the ISPS Code, and Section A-VI/6 and Table -VI/6-2 of the STCW Code, as amended. MT |
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NAU 105 - Ship Structure Class Hours: 2, Units: 2 STCW Requirement: ♦ Prerequisite(s): None A survey course of ship design and construction, emphasizing nomenclature and structural components, hull strength and vessel performance characteristics. MT |
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NAU 108 - Operational Command at Sea Class Hours: 2, Units: 2 Prerequisite(s): None Introduction to controlling the operation of the ship and care for persons on board at the operational level. Working knowledge of shipboard personnel management and training. A knowledge of related international maritime conventions and recommendations, and national legislation. Applying task and workload management. Effective knowledge of resource management and decisionmaking techniques. MT |
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NAU 110 - Seamanship Class Hours: 3, Units: 3 STCW Requirement: ♦ Prerequisite(s): NAU 105 The study of basic seamanship, including sea terms and nomenclature, small boats, merchant ship characteristics, deck fittings, rigging, equipment, appliances, life-saving devices, and emergency procedures. Attention to the duties of a lookout/helmsman prepares students for duties on CRU 100 . MT ZCCM - Zero Cost Course Materials |
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NAU 120 - Marine Engineering Class Hours: 3, Units: 3 Prerequisite(s): None The study of shipboard engineering equipment, systems, and procedures associated with the propulsion and control of steam, diesel, and gas- turbine-powered merchant ships. Several auxiliary systems such as electrical distribution, deck machinery, cargo pumps/ valves, and steering gears are also covered. MT |
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NAU 195 - Special Topics MT |
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NAU 205 - Ship Stability Class Hours: 3, Units: 3 STCW Requirement: ♦ Prerequisite(s): MTH 100 , NAU 105 , PHY 100 (may be taken concurrently), PHY 100L (may be taken concurrently) Statics of naval architecture for ship hulls. Stability, trim, volume, and moment calculations by the ship’s officer. Methods of calculation of intact, upright stability and trim, including free surface corrections. Stress calculations and damage stability. Use of software for vessel stability calculations. Area B4 MT |
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NAU 230 - Rules of the Road Class Hours: 2 Units: 2 STCW Requirement: ♦ Prerequisite(s): CRU 100 Comprehensive study of the international rules of the road (COLREGS), including their origin, purpose, history, technical provisions, and application. Included is a comparative study of both international and inland rules, along with their interpretation and practical application, as well as a study of case histories and legal interpretations resulting from collisions at sea. NAU 305 |
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NAU 240 - Electricity and Electronics Class Hours: 3 Units: 3 Prerequisite(s): MATH 100, PHY 100, PHY 100L Co-requisite(s): NAU 240L Theory of alternating current electricity, circuits, generators, motors, and semiconductors. Emphasizes shipboard systems, using STCW guidelines, to include regulatory and classification society requirements. In addition, radio communication theory is covered to the depth necessary for DL 240 (GMDSS). NAU 310 |
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NAU 240L - Electricity and Electronics Lab Lab Hours: 2 Units: 1 Co-requisite(s): NAU 240 NAU 310L |
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NAU 300 - Celestial Navigation Class Hours: 3 Units: 3 STCW Requirement: YES Prerequisite(s): NAU 102 NAU102L Co-requisite(s): NAU 300L A study of celestial navigation, including sun, moon, stars, and planets. Students are instructed in the use of modern sight reduction methods by table and calculator. Emphasis is placed on USCG/STCW requirements. NAU-102 |
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NAU 300L - Celestial Navigation Lab Class Hours: 2 Units: 1 STCW Requirement: YES Co-requisite(s): NAU 300 A study of celestial navigation, including sun, moon, stars, and planets. Students are instructed in the use of modern sight reduction methods by table and calculator. Emphasis is placed on USCG/STCW requirements. NAU 202L |
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NAU 302 - Advanced Navigation Class Hours: 2, Lab Hours: 2 Units: 2 STCW Requirement: YES Prerequisite(s): NAU 102 , NAU 102L Co-requisite(s): NAU 302L Fundamental principles of electronic navigation systems and basic computational forms of the sailings will be covered. The course consists of both classroom lecture and practical lab applications. Upon completing the course, students should be able to demonstrate an understanding of the sailings, hyperbolic and radio navigation systems, and Global Positioning System. Integrated Bridge Systems will also be discussed. Miscellaneous navigation topics will be covered. The concept of navigational crosschecking will permeate all subjects. Emphasis is placed on accuracy, neatness, precision and the good judgment required of a modern merchant mariner. MT |
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NAU 302L - Advanced Navigation Lab Lab Hours: 2 Units: 1 STCW Requirement: YES Prerequisite(s): Same as NAU 302 Co-requisite(s): NAU 302 Fundamental principles of electronic navigation systems and basic computational forms of the sailings will be covered. The course consists of both classroom lecture and practical lab applications. Upon completing the course, students should be able to demonstrate an understanding of the sailings, hyperbolic and radio navigation systems, and Global Positioning System. Integrated Bridge Systems will also be discussed. Miscellaneous navigation topics will be covered. The concept of navigational crosschecking will permeate all subjects. Emphasis is placed on accuracy, neatness, precision and the good judgment required of a modern merchant mariner. MT |
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NAU 305 - Rules of the Road Class Hours: 2, Units: 2 STCW Requirement: ♦ Prerequisite(s): Prerequisites: CRU 100 , Sophomore Class Standing Comprehensive study of the international rules of the road (COLREGS), including their origin, purpose, history, technical provisions, and application. Included is a comparative study of both international and inland rules, along with their interpretation and practical application, as well as a study of case histories and legal interpretations resulting from collisions at sea. MT |
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NAU 310 - Electricity and Electronics Class Hours: 3, Units: 3 Prerequisite(s): MTH 100 , PHY 100 , PHY 100L Co-requisite(s): NAU 310L Theory of alternating current electricity, circuits, generators, motors, and semiconductors. Emphasizes shipboard systems, using STCW guidelines, to include regulatory and classification society requirements. In addition, radio communication theory is covered to the depth necessary for DL 240 (GMDSS). MT |
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NAU 310L - Electricity and Electronics Lab Lab Hours: 2, Units: 1 Prerequisite(s): Same as NAU 310 Co-requisite(s): NAU 310 During the laboratory, hands-on experience is provided to ensure the students are proficient in the use of electrical/electronic test equipment such as multimeters and oscilloscopes, the reading and interpretation of schematics, and the use of technical manuals for trouble-shooting and for routine electrical/electronic maintenance. MT |
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NAU 320 - Tank Vessel Operations Class Hours: 3, Units: 3 STCW Requirement: ♦ Prerequisite(s): NAU 105 and NAU 205 , or ENG 430 A study of ocean transportation of bulk liquid cargo. Areas covered include tanker construction and design, petroleum cargo characteristics, oil cargo planning and operations, ballasting, pollution control, safety, and U.S. Coast Guard regulations. MT |
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NAU 325 - Cargo Vessel Operations Class Hours: 3, Units: 3 STCW Requirement: YES Prerequisite(s): ECO 100, NAU 108, DL 120, NAU 205 Overview of port operations, including containers/cargo, policies, management, competition, tariffs and regulatory affairs. Introduction to marine terminals, including characteristics/types, capacity, handling equipment/technology, labor/management, safety/security, operations and harbor drayage. Shipping topics include the role of the ship’s officer in relation to cargo handling, stowage of various commodities, cargo plans and planning of stowage, inspections and trim and stability considerations. MT |
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NAU 330 - Meteorology Class Hours: 3, Units: 3 STCW Requirement: ♦ Prerequisite(s): MTH 100 , PHY 100 , PHY 100L The science of meteorology covers principles of weather observations and reports; weather forecasting and the development of weather maps; and the study of air masses, fronts, winds and currents. Area B4 MT |
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NAU 335 - Electronic Chart Display and Information Systems (ECDIS) Class Hours: 2, Units: 2 STCW Requirement: ♦ Prerequisite(s): DL 325 , DL 325L , MTH 100 , NAU 102 , NAU 102L , NAU 302 (may be taken concurrently), NAU 302L (may be taken concurrently) Co-requisite(s): NAU 335L This course is specifically designed to instruct students in the theory and practical use of Electronic Chart Display and Information Systems (ECDIS). Also presented will be: raster and vector charts, use of ECDIS in voyage planning and recording, integration with other bridge systems like RADAR, ARPA, and AIS, latest developments in ECDIS design and implementation, and current IMO regulations governing use of ECDIS. Students must be concurrently enrolled in NAU 335L . MT |
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NAU 335L - Electronic Chart Display and Information Systems (ECDIS) Lab Lab Hours: 2, Units: 1 STCW Requirement: ♦ Prerequisite(s): Same as for NAU 335 Co-requisite(s): NAU 335 This lab provides the practical application of skills learned in NAU 335 using electronic charting display and navigational equipment. Students must be concurrently enrolled in NAU 335 . MT | Graded: Credit/No Credit |
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NAU 390 - Independent Study An Independent Study course is substantial study above and beyond the regular offerings in the Academy catalog. One to three units of credit, determined prior to registration, will be granted for Independent Study. The student must arrange with an Academy faculty member to be the Independent Study Advisor. Grading is typically by letter grade, although the student may request the CR/NC grading basis. An approved Application for Independent Study must be on file in the Student Records Office by the end of the normal add period. MT |
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NAU 395 - Special Topics Co-requisite(s): NAU 395L Special topic courses are intended to enable each department to offer an elective course of study when faculty scholarship activities or the expertise of visiting faculty may afford a unique and worthwhile learning experience. Check the course schedule for current offerings. MT |
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NAU 400 - Advanced Maritime Topics Class Hours: 3, Units: 3 Prerequisite(s): CRU 200 , CRU 200L , DL 410 (may be taken concurrently), EGL 300 This course is designed to consolidate and advance the knowledge of seamanship gained by students in their earlier years at Cal Maritime, both on cruise and in the classroom. A study of the many aspects of seamanship is conducted, along with theoretical aspects of shiphandling. The steering gear, navigation safety regulations, and responsibility of the pilots are considered. Heavy weather, ice seamanship, and ground tackle are included. The ship’s log and its legal standing are discussed, along with record keeping and the ship’s officers’ responsibility under the federal code, including ethics, alcohol and substance abuse issues, and crimes at sea. Students will be required to write a term paper and make an oral presentation to the class. MT |
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NAU 410 - License Seminar Class Hours: 1, Units: 1 Prerequisite(s): Senior class standing, NAU 205, NAU 300, NAU 300L, NAU 302 (may be taken concurrently), NAU 302L (may be taken concurrently), NAU 320, NAU 326 Co-requisite(s): NAU 410L This comprehensive course is designed to prepare candidates for the USCG OICNW exams. Unlike any other course, it requires the candidate to synthesize and apply myriad professional subjects learned in previous subject-specific courses, and perform with both precision and accuracy under time pressure. New topics and material pertinent only to USCG testing will be covered, advanced material will be reviewed in the context of USCG requirements (which differ from practical requirements), and theories and methods of knowledge retention and test-taking strategies will be explored. Rules of the Road, navigation, seamanship, deck safety, environmental protection, cargo, watchstanding and other professional subjects are covered as they pertain specifically to USCG licensing. Course subject matter and strategy necessarily change as the USCG exams continually evolve. MT |
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NAU 410L - License Seminar Lab Lab Hours: 1 Units: 2 Prerequisite(s): Senior class standing, NAU 205, NAU 300, NAU 300L, NAU 302 (may be taken concurrently), NAU 302L (may be taken concurrently), NAU 320, NAU 326 Co-requisite(s): NAU 410 This comprehensive course is designed to prepare candidates for the USCG OICNW exams. Unlike any other course, it requires candidates to synthesize and apply myriad professional subjects learned in previous subject-specific courses, and perform both with precision and accuracy under time pressure. New topics and material pertinent only to USCG testing will be covered, advanced material will be reviewed in the context of USCG requirements (which differ from practical requirements), and theories and methods of knowledge retention and test-taking strategies will be explored. Rules of the Road, navigation, seamanship, deck safety, environmental protections, cargo, watchstanding and other professional subjects are covered as they pertain specifically to USCG licensing. Course subject matter and strategy necessarily change as the USCG exams continually evolve. MT |
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NAU 415 - Transportation Security Class Hours: 3, Units: 3 STCW Requirement: ♦ Prerequisite(s): CRU 200 , NAU 325 This course emphasizes maritime security on an operational level versus from a public policy perspective. It is modular in format and focuses on the International Ship and Port Security Code (ISPS), the Maritime Transportation Security Act of 2002 (MTSA) and domestic maritime security policies and requirements as outlined in the Code of Federal Regulations and USCG NVICs. Students will learn to understand port and ship vulnerability assessments, implement security plans, understand various levels of shipboard and terminal security responsibilities and administration. The course will also explore elements of chemical, biological and radiological defense (CBRD), crisis management, and equipment security technologies. Ship and terminal operations will be explored with respect to cargo and vessel screening programs and methods. Students successfully completing this course may earn industryrecognized security certificates. MT ZCCM - Zero Cost Course Materials |
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NAU 420 - Maritime Casualty Seminar Class Hours: 3, Units: 3 General Education: Area E Lifelong Learning and Self Development Prerequisite(s): CRU 200 or CRU 250 or CEP 250 or CEP 270 or CEP 300 Comprehensive study of commercial maritime casualties that impacted domestic regulatory schemes and international conventions. Focus will be on the human element, and how diverse cultures, languages, and management styles aboard international commercial vessels impact human interactions with each other, with equipment, within watch teams, and with the vessels and agencies of other nations. MT |
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NAU 430 - Liquefied Gas Cargos Class Hours: 2, Units: 2 Prerequisite(s): Prerequisite for MT Students: NAU 320 Prerequisite for MET & ME Students: CEP 350 , ENG 430 Co-requisite(s): NAU 430L A study of the ocean transportation of liquefied gas cargos, which includes liquefied natural gas (LNG) and liquefied petroleum gas (LPG). Areas covered include chemistry and physics, hazards, rules and regulations, ship design and cargo containment, cargo handling systems, safety, cargo handling operations, ship/shore interface, and emergency operations. The class, in conjunction with the Liquid Gas Cargo Simulator, will prepare the student to be a junior officer onboard liquid gas carriers. MT |
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NAU 430L - Liquefied Gas Cargos Lab Lab Hours: 2, Units: 1 Prerequisite(s): Prerequisite for MT Students: NAU 320 Prerequisite for MET & ME Students: CRU 350 , ENG 430 Co-requisite(s): NAU 430 This class will be conducted concurrently with NAU 430 . By use of simulation, students will conduct cargo operations and gain system understanding of liquefied gas carriers. MT | Graded: Credit/No Credit |
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NAU 435 - Marine Transportation: People, Planet and the Profession Class Hours: 3 Units: 3 Prerequisite(s): DL 300 or senior standing Marine transportation effects the environment and society, not to mention the people who work in the industry. To try to minimize such effects, international governmental, non-governmental, and trade organizations have worked together to address a wide array of environmental and social issues. This course will examine these issues in depth, and will apply ethical standards to real-world problems. The course concludes with a personal examination by each student to understand their values, goals, and role in the marine transportation industry. |
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NAU 440 - Dynamic Positioning Induction Class Hours: 3 Units: 3 Prerequisite(s): NAU 230; NAU 102; DL 240 (may be taken concurrently with approval); DL 225 (may be taken concurrently with approval). Provides basic knowledge about Dynamic Positioning Systems, function and operation, practical use, and limitations. Outlines basic knowledge about sensors and Position Reference Systems, alarm and messages, consequence analysis and rules and regulations. Meets the Nautical Institute DP Operator training scheme requirements to obtain the official DP Operator Certificate/Logbook. MT |
Naval Science |
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NSC 100 - Naval Science for the Merchant Marine Officer/Strategic Sealift Officer Class Hours: 3, Units: 3 An introduction to the organization of the U.S. Navy, with a discussion of the Strategic Sealift Officer Program and Naval Reserve commissioning options, which provide a sound basis for liaisons between the U.S. Navy and the merchant marines. The concept of seapower is analyzed, with emphasis on the historical merchant marine- Navy interface in common seapower objectives. 70% of available lecture time is spent covering the history of seapower. The remaining 30% is spent covering miscellaneous organizations/government agencies which support defense objectives and have ties to the merchant marine. NS |
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NSC 195 - Special Topics NS |
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NSC 200 - Navel Science II for the Strategic Sealift Officer Class Hours: 3, Units: 3 Prerequisite(s): NSC 100 Building on NSC 100 , this course presents the nature of a hostile naval threat and types of surface, subsurface, and air attacks to which both U.S. naval and merchant shipping can be subjected. Merchant ship self-defense maneuvers and naval escort defensive actions are analyzed. The student should become proficient in the merchant marine-Navy communication interface and in ship maneuvering when in convoy. Navy officer communities, administration, and organization are discussed. Warship design, propulsion, and damage control methods are also introduced. NS |
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NSC 320 - Naval Operations Class Hours: 3, Units: 4 Prerequisite(s): NSC 200 , NSC 315 , NSC 315L , U.S. citizenship Co-requisite(s): NSC 320L Operations topics covered include naval communications systems, sonar-radar search techniques, formations, and screening theory. Tactical formations and dispositions, relative motion, maneuvering board, and tactical plots are analyzed for force effectiveness and unity. It provides an introduction to the theory and principles of operation of naval weapons systems, including coverage on the capabilities and limitations of weapons and fire control systems. The theory of target acquisition, identification and tracking, trajectory principles, and basics of naval ordinance is presented. The course is required for all Naval Science minors and recommended for those students pursuing a Naval Reserve commission. Formerly NSC 310. NS |
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NSC 320L - Naval Operations Lab Lab Hours: 2, Units: 0 Co-requisite(s): NSC 320 Formerly NSC 310L. NS |
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NSC 390 - Independent Study An Independent Study course is substantial study above and beyond the regular offerings in the Academy catalog. One to three units of credit, determined prior to registration, will be granted for Independent Study. The student must arrange with an Academy faculty member to be the Independent Study Advisor. Grading is typically by letter grade, although the student may request the CR/NC grading basis. An approved Application for Independent Study must be on file in the Student Records Office by the end of the normal add period. NS |
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NSC 395 - Special Topics Special topic courses are intended to enable each department to offer an elective course of study when faculty scholarship activities or the expertise of visiting faculty may afford a unique and worthwhile learning experience. Check the course schedule for current offerings. NS |
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NSC 400 - Leadership, Ethics, and Naval Science for the Merchant Marine Reservist II Class Hours: 4, Units: 4 Prerequisite(s): NSC 200 or approval of Chair Designed to provide midshipmen with the practical knowledge, leadership, and managerial skills necessary to function as a new naval reserve officer. Topics include merchant marine reserve, officer and enlisted rank structure, administrative duties of an officer, the naval justice system, management techniques, promotions, leadership, ethics, fitness reports and annual training (AT) requirement and procedures. NS |
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NSC 450 - Advanced Midshipman Naval Training Units: 1 Prerequisite(s): MMR Midshipman under Contract (Naval Science Department Chair approval required) A very intensive training opportunity for midshipmen desiring to increase their practical knowledge of the U.S. Navy’s mission. Provides fundamental, intermediate, and upper level leadership experience through practical application of leadership management techniques. Students perform in a variety of billets. Eligible cadets are chosen to participate in NSC 250 according to their performance, aptitude, and warfare community interest. Training opportunities include, but are not limited to, field trips to surface, subsurface, aviation, and special operations units; close order drill; inspections; and naval officer career areas. Naval Science Department Chair approval required. May be used to satisfy open elective requirements. NS | Graded: Credit/No Credit |
Oceanography |
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OCN Elective - Oceanography Elective Class Hours: 3 Units: 3 |
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OCN 100 - Marine Biology Class Hours: 3 Units: 3 General Education: Area B2 Life Science Introduction to organismal biology using marine examples. Origin and diversity of marine life including prokaryotes, protists, marine invertebrates and vertebrates. Mendelian genetics, speciation, reproduction, basic cellular physiology. MSC 205 SM |
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OCN 100L - Marine Biology Laboratory Class Hours: 3 Units: 1 General Education: Area B3 Laboratory Activity Co-requisite(s): OCN 100 Introduction to stereo and compound microscopes, plankton collections and enumeration of phytoplankton and zooplankton, fouling invertebrates and marine invasive species, invertebrate and vertbrate dissections. MSC 205L SM |
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OCN 105 - Introduction to Oceanography Class Hours: 3 Units: 3 General Education: Area B1 Physical Science An exploration of the chemical, geological, physical and biological processes occuring within Earth’s oceans. Topics include: the formation of the universe, plate tectonics, atmospheric circulation, hurricanes, global climate change, ocean circulation, El Niño, waves, tsunamis, tides, origin of life on Earth, deep-sea environments, ocean resources, and marine pollution. |
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OCN 110 - Marine Ecology Class Hours: 3 Units: 3 General Education: Area B2 Life Science Introduction to marine ecology of diverse habitats including the estuarine, intertidal, epipelagic, and deep sea, coral reefs and polar ecosystems. MSC 210 SM |
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OCN 110L - Marine Ecology Laboratory Lab Hours: 3 Units: 1 General Education: Area B# Laboratory Activity Co-requisite(s): OCN 110 Laboratory/field-based course working in local marine environments, including estuarine, wetland, rocky intertidal, and beach communities, to understand marine ecology. This service-learning course will patner with state, federal, or nogovernmental agencies to collect and interpret ecological data. Several field trips are planned during the semester. MSC 210L SM |
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OCN 200 - Oceanography I: Geology and Chemistry Class Hours: 3 Units: 3 General Education: Area B1 Physical Science - lower division Prerequisite(s): MTH 100 History of oceanography, seafloor features, plate tectonics, marine sediments, chemistry of seawater, dissolved gases, and ocean resources. MSC 100 SM |
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