
Term I  Course #  Course Name  Lecture  Lab  Study  Credit 

CH 115  General Chemistry I Atomic structure and periodic properties, stoichiometry, properties of gases, thermochemistry, chemical bond types, intermolecular forces, liquids and solids, chemical kinetics and introduction to organic chemistry and biochemistry. Corequisites:CH 117General Chemistry Laboratory I (031)(LectureLabStudy Hours) Laboratory work to accompany CH 115: experiments of atomic spectra, stoichiometric analysis, qualitative analysis, and organic and inorganic syntheses, and kinetics. Close 
Close  3  0  6  3  CH 117  General Chemistry Laboratory I Laboratory work to accompany CH 115: experiments of atomic spectra, stoichiometric analysis, qualitative analysis, and organic and inorganic syntheses, and kinetics. Corequisites:CH 115, General Chemistry I (306)(LectureLabStudy Hours) Atomic structure and periodic properties, stoichiometry, properties of gases, thermochemistry, chemical bond types, intermolecular forces, liquids and solids, chemical kinetics and introduction to organic chemistry and biochemistry. Close 
CH 107General Chemistry IA (000)(LectureLabStudy Hours) Elements, compounds, ions, stoichiometry, chemical reactions, solutions, gas laws, partial pressures, effusion, thermochemistry, atomic structure, periodicity, bonding, organic molecules, (nomenclatures), organic chemistry (hybridization, delocalization), polymers. Required course for Engineering students. Close 
Close  0  3  1  1  MA 121  Differential CalculusLimits, the derivatives of functions of one variable, differentiation rules, applications of the derivative.Prerequisites:MA 120Introduction to Calculus (400)
(LectureLabStudy Hours)
The first part of the course reviews algebra and precalculus skills. The second part of the course introduces students to topics from differential calculus, including limits, rates of change and differentiation rules. Close 
Close  4  0  8  2  MA 122  Integral CalculusDefinite integrals of functions of one variable, antiderivatives, the Fundamental Theorem, integration techniques, improper integrals, applications. Prerequisites:MA 121Differential Calculus (408)
(LectureLabStudy Hours) Limits, the derivatives of functions of one variable, differentiation rules, applications of the derivative. Close 
Close  4  0  8  2  E 101  Engineering Experiences IThis course consists of a set of engineering experiences such as lectures, small group sessions, online modules and visits. Students are required to complete a specified number of experiences during the semester. The goal is to introduce students to the engineering profession, engineering disciplines, college success strategies, Stevens research and other engaging activities and to Technogenesis. Course is pass/fail. Close  1  0  0  1  E 121  Engineering Design IThis course introduces students to the process of design and seeks to engage their enthusiasm for engineering from the very beginning of the program. The engineering method is used in the design and manufacture of a product. Product dissection is exploited to evaluate how others have solved design problems. Development is started of competencies in professional practice topics, primarily: effective group participation, project management, cost estimation, communication skills and ethics. Engineering Design I is linked to and taught concurrently with the Engineering Graphics course. Engineering graphics are used in the design projects and the theme of "fit to form" is developed. Corequisites:E 115, Introduction to Programming (123)(LectureLabStudy Hours) An introduction to the use of an advanced programming language for use in engineering applications, using C++ as the basic programming language and Microsoft Visual C++ as the program development environment. Topics covered include basic syntax (data types and structures, input/output instructions, arithmetic instructions, loop constructs, functions, subroutines, etc.) needed to solve basic engineering problems as well as an introduction to advanced topics (use of files, principles of objects and classes, libraries, etc.). Algorithmic thinking for development of computational programs and control programs from mathematical and other representations of the problems will be developed. Basic concepts of computer architectures impacting the understanding of a highlevel programming language will be covered. Basic concepts of a microcontroller architecture impacting the use of a highlevel programming language for development of microcontroller software will be covered, drawing specifically on the microcontroller used in E121 (Engineering Design I). Close 
E 120Engineering Graphics (021)(LectureLabStudy Hours) Engineering graphics: principles of orthographic and auxiliary projections, pictorial presentation of engineering designs, dimensioning and tolerance, sectional and detail views, assembly drawings. Descriptive geometry. Engineering figures and graphs. Solid modeling introduction to computeraided design and manufacturing (CAD/CAM) using numericallycontrolled (NC) machines. Close 
Close  0  3  2  2  E 120  Engineering GraphicsEngineering graphics: principles of orthographic and auxiliary projections, pictorial presentation of engineering designs, dimensioning and tolerance, sectional and detail views, assembly drawings. Descriptive geometry. Engineering figures and graphs. Solid modeling introduction to computeraided design and manufacturing (CAD/CAM) using numericallycontrolled (NC) machines. Close  0  2  1  1  E 115  Introduction to Programming An introduction to the use of an advanced programming language for use in engineering applications, using C++ as the basic programming language and Microsoft Visual C++ as the program development environment. Topics covered include basic syntax (data types and structures, input/output instructions, arithmetic instructions, loop constructs, functions, subroutines, etc.) needed to solve basic engineering problems as well as an introduction to advanced topics (use of files, principles of objects and classes, libraries, etc.). Algorithmic thinking for development of computational programs and control programs from mathematical and other representations of the problems will be developed. Basic concepts of computer architectures impacting the understanding of a highlevel programming language will be covered. Basic concepts of a microcontroller architecture impacting the use of a highlevel programming language for development of microcontroller software will be covered, drawing specifically on the microcontroller used in E121 (Engineering Design I). Close  1  2  3  2  CAL 103  Writing And Communications ColloquiumThis course empowers students with the written and oral communications skills essential for both universitylevel academic discourse as well as success outside Stevens in the professional world. Tailored to the Stevens student, styles of writing and communications include technical writing, business proposals and reports, scientific reports, expository writing, promotional documents and advertising, PowerPoint presentations, and team presentations. The course covers the strategies for formulating effective arguments and conveying them to a wider audience. Special attention is given to the skills necessary for professional document structure, successful presentation techniques and grammatical/style considerations. Close  3  0  6  3  PE 200  Physical Education I  0  0  0  0   Total  16  10  35  17 
 Term II  Course #  Course Name  Lecture  Lab  Study  Credit 

S.E.  Science Elective (1)  3  0  6  3  PEP 111  MechanicsVectors, kinetics, Newton’s laws, dynamics or particles, work and energy, friction, conserverative forces, linear momentum, centerofmass and relative motion, collisions, angular momentum, static equilibrium, rigid body rotation, Newton’s law of gravity, simple harmonic motion, wave motion and sound. Corequisites:MA 115Calculus I (408)(LectureLabStudy Hours) An introduction to differential and integral calculus for functions of one variable. The differential calculus includes limits, continuity, the definition of the derivative, rules for differentiation, and applications to curve sketching, optimization, and elementary initial value problems. The integral calculus includes the definition of the definite integral, the Fundamental Theorem of Calculus, techniques for finding antiderivatives, and applications of the definite integral. Transcendental and inverse functions are included throughout. Close 
Close  3  0  6  3  E 122  Engineering Design IIThis course will continue the freshman year experience in design. The design projects will be linked to the Mechanics of Solids course (integrated Statics and Strength of Materials) taught concurrently. The engineering method introduced in Engineering Design I will be reinforced. Further introduction of professional practice topics will be linked to their application and testing in case studies and project work. Basic concepts of design for environment and aesthetics will be introduced. Prerequisites:E 121Engineering Design I (032)
(LectureLabStudy Hours) This course introduces students to the process of design and seeks to engage their enthusiasm for engineering from the very beginning of the program. The engineering method is used in the design and manufacture of a product. Product dissection is exploited to evaluate how others have solved design problems. Development is started of competencies in professional practice topics, primarily: effective group participation, project management, cost estimation, communication skills and ethics. Engineering Design I is linked to and taught concurrently with the Engineering Graphics course. Engineering graphics are used in the design projects and the theme of "fit to form" is developed. Close 
Close  0  3  3  2  CAL 103  Writing And Communications ColloquiumThis course empowers students with the written and oral communications skills essential for both universitylevel academic discourse as well as success outside Stevens in the professional world. Tailored to the Stevens student, styles of writing and communications include technical writing, business proposals and reports, scientific reports, expository writing, promotional documents and advertising, PowerPoint presentations, and team presentations. The course covers the strategies for formulating effective arguments and conveying them to a wider audience. Special attention is given to the skills necessary for professional document structure, successful presentation techniques and grammatical/style considerations. Close  3  0  6  3  MA 123  Series, Vectors, Functions, and SurfacesTaylor polynomials and series, functions of two and three variables, linear functions, implicit functions, vectors in two and three dimensions. Prerequisites:MA 122 or Integral Calculus (408)
(LectureLabStudy Hours)
Definite integrals of functions of one variable, antiderivatives, the Fundamental Theorem, integration techniques, improper integrals, applications. Close 
MA 115Calculus I (000)
(LectureLabStudy Hours) An introduction to differential and integral calculus for functions of one variable. The differential calculus includes limits, continuity, the definition of the derivative, rules for differentiation, and applications to curve sketching, optimization, and elementary initial value problems. The integral calculus includes the definition of the definite integral, the Fundamental Theorem of Calculus, techniques for finding antiderivatives, and applications of the definite integral. Transcendental and inverse functions are included throughout. Close 
Close  4  0  8  2  MA 124  Calculus of Two VariablesPartial derivatives, the tangent plane and linear approximation, the gradient and directional derivatives, the chain rule, implicit differentiation, extreme values, application to optimization, double integrals in rectangular coordinates. Prerequisites:MA 123Series, Vectors, Functions, and Surfaces (408)
(LectureLabStudy Hours) Taylor polynomials and series, functions of two and three variables, linear functions, implicit functions, vectors in two and three dimensions. Close 
Close  4  0  8  2  PE 200  Physical Education II  0  0  0  0  MGT 103  Intro to EntrepreneurshipThe overall objective of this course is to create an entrepreneurial mindset in freshman undergraduate students and to provide them enough basic material in a highly interactive format so they have enough basic material to become an entrepreneur. The course will create passion and excitement for becoming an entrepreneur. This will be done through inspiring seminars from local entrepreneurs. Live interactive video lectures from world recognized entrepreneurs will also be included. Enough basic material in the areas of teaming and leadership, strategy and management, market and market research, finance, production, oral presentations and funding so that the students understand what entrepreneurship is all about. The course will be taught in a highly interactive format. Only one formal lecture – the first introductory – is part of the course. The remaining formal material is taught using carefully choreographed and integrated selfteaching modules. Inclass time is focused on active discussions, team activities and running a computer simulation which emulates a startup company. Close  1  2  0  2   Total  18  5  37  17 
 Term III  Course #  Course Name  Lecture  Lab  Study  Credit 

MA 221  Differential EquationsOrdinary differential equations of first and second order, homogeneous and nonhomogeneous equations; improper integrals, Laplace transforms; review of infinite series, series solutions of ordinary differential equations near an ordinary point; boundaryvalue problems; orthogonal functions; Fourier series; separation of variables for partial differential equations. Prerequisites:MA 116, Calculus II (408)
(LectureLabStudy Hours) Continues from MA 115 with improper integrals, infinite series, Taylor series, and Taylor polynomials. Vectors operations in 3space, mathematical descriptions of lines and planes, and singlevariable calculus for parametric curves. Introduction to calculus for functions of two or more variables including graphical representations, partial derivatives, the gradient vector, directional derivatives, applications to optimization, and double integrals in rectangular and polar coordinates. Close 
MA 116 or Calculus II (408)
(LectureLabStudy Hours) Continues from MA 115 with improper integrals, infinite series, Taylor series, and Taylor polynomials. Vectors operations in 3space, mathematical descriptions of lines and planes, and singlevariable calculus for parametric curves. Introduction to calculus for functions of two or more variables including graphical representations, partial derivatives, the gradient vector, directional derivatives, applications to optimization, and double integrals in rectangular and polar coordinates. Close 
MA 124Calculus of Two Variables (408)
(LectureLabStudy Hours) Partial derivatives, the tangent plane and linear approximation, the gradient and directional derivatives, the chain rule, implicit differentiation, extreme values, application to optimization, double integrals in rectangular coordinates. Close 
Close  4  0  8  4  PEP 112  Electricity and MagnetismCoulomb’s law, concepts of electric field and potential, Gauss’ law, capacitance, current and resistance, DC and RC transient circuits, magnetic fields, Ampere’s law, Faraday’s law of induction, inductance, A/C circuits, electromagnetic oscillations, Maxwell’s equations and electromagnetic waves. Prerequisites:MA 115 or Calculus I (408)
(LectureLabStudy Hours) An introduction to differential and integral calculus for functions of one variable. The differential calculus includes limits, continuity, the definition of the derivative, rules for differentiation, and applications to curve sketching, optimization, and elementary initial value problems. The integral calculus includes the definition of the definite integral, the Fundamental Theorem of Calculus, techniques for finding antiderivatives, and applications of the definite integral. Transcendental and inverse functions are included throughout. Close 
MA 115, Calculus I (408)
(LectureLabStudy Hours) An introduction to differential and integral calculus for functions of one variable. The differential calculus includes limits, continuity, the definition of the derivative, rules for differentiation, and applications to curve sketching, optimization, and elementary initial value problems. The integral calculus includes the definition of the definite integral, the Fundamental Theorem of Calculus, techniques for finding antiderivatives, and applications of the definite integral. Transcendental and inverse functions are included throughout. Close 
PEP 111, Mechanics (306)
(LectureLabStudy Hours) Vectors, kinetics, Newton’s laws, dynamics or particles, work and energy, friction, conserverative forces, linear momentum, centerofmass and relative motion, collisions, angular momentum, static equilibrium, rigid body rotation, Newton’s law of gravity, simple harmonic motion, wave motion and sound. Close 
PEP 111, Mechanics (306)
(LectureLabStudy Hours) Vectors, kinetics, Newton’s laws, dynamics or particles, work and energy, friction, conserverative forces, linear momentum, centerofmass and relative motion, collisions, angular momentum, static equilibrium, rigid body rotation, Newton’s law of gravity, simple harmonic motion, wave motion and sound. Close 
MA 122Integral Calculus (408)
(LectureLabStudy Hours)
Definite integrals of functions of one variable, antiderivatives, the Fundamental Theorem, integration techniques, improper integrals, applications. Close 
Close  3  0  6  3  E 126  Mechanics of SolidsFundamental concepts of particle statics, equivalent force systems, equilibrium of rigid bodies, analysis of trusses and frames, forces in beam and machine parts, stress and strain, tension, shear and bending moment, flexure, combined loading, energy methods, statically indeterminate structures. Prerequisites:MA 115, Calculus I (408)
(LectureLabStudy Hours) An introduction to differential and integral calculus for functions of one variable. The differential calculus includes limits, continuity, the definition of the derivative, rules for differentiation, and applications to curve sketching, optimization, and elementary initial value problems. The integral calculus includes the definition of the definite integral, the Fundamental Theorem of Calculus, techniques for finding antiderivatives, and applications of the definite integral. Transcendental and inverse functions are included throughout. Close 
PEP 111, Mechanics (306)
(LectureLabStudy Hours) Vectors, kinetics, Newton’s laws, dynamics or particles, work and energy, friction, conserverative forces, linear momentum, centerofmass and relative motion, collisions, angular momentum, static equilibrium, rigid body rotation, Newton’s law of gravity, simple harmonic motion, wave motion and sound. Close 
PEP 111, Mechanics (306)
(LectureLabStudy Hours) This is an independent study version of PEP 111. Close 
MA 115, Calculus I (408)
(LectureLabStudy Hours) An introduction to differential and integral calculus for functions of one variable. The differential calculus includes limits, continuity, the definition of the derivative, rules for differentiation, and applications to curve sketching, optimization, and elementary initial value problems. The integral calculus includes the definition of the definite integral, the Fundamental Theorem of Calculus, techniques for finding antiderivatives, and applications of the definite integral. Transcendental and inverse functions are included throughout. Close 
MA 122Integral Calculus (408)
(LectureLabStudy Hours)
Definite integrals of functions of one variable, antiderivatives, the Fundamental Theorem, integration techniques, improper integrals, applications. Close 
Close  4  0  8  4  E 245  Circuits and SystemsIdeal circuit elements; Kirchoff laws and nodal analysis; source transformations; Thevenin/Norton theorems; operational amplifiers; response of RL, RC and RLC circuits; sinusoidal sources and steady state analysis; analysis in frequenct domain; average and RMS power; linear and ideal transformers; linear models for transistors and diodes; analysis in the sdomain; Laplace transforms; transfer functions. Corequisites:MA 221, Differential Equations (408)(LectureLabStudy Hours) Ordinary differential equations of first and second order, homogeneous and nonhomogeneous equations; improper integrals, Laplace transforms; review of infinite series, series solutions of ordinary differential equations near an ordinary point; boundaryvalue problems; orthogonal functions; Fourier series; separation of variables for partial differential equations. Close 
PEP 112Electricity and Magnetism (306)(LectureLabStudy Hours) Coulomb’s law, concepts of electric field and potential, Gauss’ law, capacitance, current and resistance, DC and RC transient circuits, magnetic fields, Ampere’s law, Faraday’s law of induction, inductance, A/C circuits, electromagnetic oscillations, Maxwell’s equations and electromagnetic waves. Close 
Close  2  3  7  3  E 231  Engineering Design IIIThis course continues the experiential sequence in design. Design projects are linked with Mechanics of Solids topics taught concurrently. Core design themes are further developed. Corequisites:E 126Mechanics of Solids (408)(LectureLabStudy Hours) Fundamental concepts of particle statics, equivalent force systems, equilibrium of rigid bodies, analysis of trusses and frames, forces in beam and machine parts, stress and strain, tension, shear and bending moment, flexure, combined loading, energy methods, statically indeterminate structures. Close 
Prerequisites:E 122Engineering Design II (033)
(LectureLabStudy Hours) This course will continue the freshman year experience in design. The design projects will be linked to the Mechanics of Solids course (integrated Statics and Strength of Materials) taught concurrently. The engineering method introduced in Engineering Design I will be reinforced. Further introduction of professional practice topics will be linked to their application and testing in case studies and project work. Basic concepts of design for environment and aesthetics will be introduced. Close 
Close  0  3  2  2  Hum  Humanities
 3  0  6  3  PE 200  Physical Education III  0  2  0  0   Total  16  8  37  19 
 Term IV  Course #  Course Name  Lecture  Lab  Study  Credit 

E 232  Engineering Design IVThis course continues the experiential sequence in design. Design projects are in, and lectures address the area of Electronics and Instrumentation. Core design themes are further developed. Prerequisites:E 245, Circuits and Systems (237)
(LectureLabStudy Hours) Ideal circuit elements; Kirchoff laws and nodal analysis; source transformations; Thevenin/Norton theorems; operational amplifiers; response of RL, RC and RLC circuits; sinusoidal sources and steady state analysis; analysis in frequenct domain; average and RMS power; linear and ideal transformers; linear models for transistors and diodes; analysis in the sdomain; Laplace transforms; transfer functions. Close 
E 231, Engineering Design III (032)
(LectureLabStudy Hours) This course continues the experiential sequence in design. Design projects are linked with Mechanics of Solids topics taught concurrently. Core design themes are further developed. Close 
E 245Circuits and Systems (237)
(LectureLabStudy Hours) Ideal circuit elements; Kirchoff laws and nodal analysis; source transformations; Thevenin/Norton theorems; operational amplifiers; response of RL, RC and RLC circuits; sinusoidal sources and steady state analysis; analysis in frequenct domain; average and RMS power; linear and ideal transformers; linear models for transistors and diodes; analysis in the sdomain; Laplace transforms; transfer functions. Close 
Close  2  3  7  3  E 234  Thermodynamics (2)Concepts of heat and work; First and Second Laws for closed and open systems including steady processes and cycles; thermodynamic properties of substances and interrelationships; phase change and phase equilibrium; chemical reactions and chemical equilibrium; representative applications. Introduction to energy conversion systems, including direct energy conversion in fuelcells, photovoltaic systems, etc. Prerequisites:CH 115, General Chemistry I (306)
(LectureLabStudy Hours) Atomic structure and periodic properties, stoichiometry, properties of gases, thermochemistry, chemical bond types, intermolecular forces, liquids and solids, chemical kinetics and introduction to organic chemistry and biochemistry. Close 
MA 115, Calculus I (408)
(LectureLabStudy Hours) An introduction to differential and integral calculus for functions of one variable. The differential calculus includes limits, continuity, the definition of the derivative, rules for differentiation, and applications to curve sketching, optimization, and elementary initial value problems. The integral calculus includes the definition of the definite integral, the Fundamental Theorem of Calculus, techniques for finding antiderivatives, and applications of the definite integral. Transcendental and inverse functions are included throughout. Close 
PEP 111, Mechanics (306)
(LectureLabStudy Hours) This is an independent study version of PEP 111. Close 
MA 122Integral Calculus (408)
(LectureLabStudy Hours)
Definite integrals of functions of one variable, antiderivatives, the Fundamental Theorem, integration techniques, improper integrals, applications. Close 
Close  3  0  6  3  S.E.  Science Elective I (1)  3  0  6  3  T.E.  Technical Elective (3)  3  0  6  3  Hum  Humanities
 3  0  6  3  MA 227  Multivariable CalculusReview of matrix operations, Cramer’s rule, row reduction of matrices; inverse of a matrix, eigenvalues and eigenvectors; systems of linear algebraic equations; matrix methods for linear systems of differential equations, normal form, homogeneous constant coefficient systems, complex eigenvalues, nonhomogeneous systems, the matrix exponential; double and triple integrals; polar, cylindrical and spherical coordinates; surface and line integrals; integral theorems of Green, Gauss and Stokes. Corequisites:MA 221Differential Equations (408)(LectureLabStudy Hours) Ordinary differential equations of first and second order, homogeneous and nonhomogeneous equations; improper integrals, Laplace transforms; review of infinite series, series solutions of ordinary differential equations near an ordinary point; boundaryvalue problems; orthogonal functions; Fourier series; separation of variables for partial differential equations. Close 
Close  3  0  0  3  PE 200  Physical Education IV  0  2  0  0   Total  17  5  31  18 
 Term V  Course #  Course Name  Lecture  Lab  Study  Credit 

E 342  Transport/Fluid Mechanics
(2)Offered as a specific departmental course; see departmental listing.
Close  3  3  6  4  E 344  Materials ProcessingAn introduction is provided to the important engineering properties of materials, to the scientific understanding of those properties and to the methods of controlling them. This is provided in the context of the processing of materials to produce products. Prerequisites:CH 115General Chemistry I (306)
(LectureLabStudy Hours) Atomic structure and periodic properties, stoichiometry, properties of gases, thermochemistry, chemical bond types, intermolecular forces, liquids and solids, chemical kinetics and introduction to organic chemistry and biochemistry. Close 
Close  3  0  6  3  E 321  Engineering Design VThis course includes both experimentation and openended design problems that are integrated with the Materials Processing course taught concurrently. Core design themes are further developed. Corequisites:E 344Materials Processing (306)(LectureLabStudy Hours) An introduction is provided to the important engineering properties of materials, to the scientific understanding of those properties and to the methods of controlling them. This is provided in the context of the processing of materials to produce products. Close 
Close  0  3  2  2  E 243  Probability and Statistics for EngineersDescriptive statistics, pictorial and tabular methods, measures of location and of variability, sample space and events, probability and independence, Bayes' formula, discrete random variables, densities and moments, normal, gamma, exponential and Weibull distributions, distribution of the sum and average of random samples, the central limit theorem, confidence intervals for the mean and the variance, hypothesis testing and pvalues, applications for prediction in a regression model. A statistical computer package is used throughout the course for teaching and for project assignments. Prerequisites:MA 116, Calculus II (408)
(LectureLabStudy Hours) Continues from MA 115 with improper integrals, infinite series, Taylor series, and Taylor polynomials. Vectors operations in 3space, mathematical descriptions of lines and planes, and singlevariable calculus for parametric curves. Introduction to calculus for functions of two or more variables including graphical representations, partial derivatives, the gradient vector, directional derivatives, applications to optimization, and double integrals in rectangular and polar coordinates. Close 
MA 116Calculus II (408)
(LectureLabStudy Hours) Continues from MA 115 with improper integrals, infinite series, Taylor series, and Taylor polynomials. Vectors operations in 3space, mathematical descriptions of lines and planes, and singlevariable calculus for parametric curves. Introduction to calculus for functions of two or more variables including graphical representations, partial derivatives, the gradient vector, directional derivatives, applications to optimization, and double integrals in rectangular and polar coordinates. Close 
Close  3  0  6  3  T.E.  Technical Elective (3)  3  0  6  3  Hum  Humanities
 3  0  6  3   Total  15  6  32  18 
 Term VI  Course #  Course Name  Lecture  Lab  Study  Credit 

E 345  Modeling and Simulation (3)Development of deterministic and nondeterministic models for physical systems; engineering applications; simulation tools for deterministic and non deterministic systems; case studies and projects. Offered as a discipline specific course (e.g.: CE345, CHE345, CPE345, EE345, EM345, EN345,ME345, PEP345). Close  3  0  6  3  E 355  Engineering Economics Basics of cost accounting and cost estimation, costestimating techniques for engineering projects, quantitative techniques for forecasting costs, cost of quality. Basic engineering economics, including capital investment in tangible and intangible assets. Engineering project management techniques, including budget development, sensitivity analysis, risk and uncertainty analysis and total quality management concepts. Prerequisites:E 121, Engineering Design I (032)
(LectureLabStudy Hours) This course introduces students to the process of design and seeks to engage their enthusiasm for engineering from the very beginning of the program. The engineering method is used in the design and manufacture of a product. Product dissection is exploited to evaluate how others have solved design problems. Development is started of competencies in professional practice topics, primarily: effective group participation, project management, cost estimation, communication skills and ethics. Engineering Design I is linked to and taught concurrently with the Engineering Graphics course. Engineering graphics are used in the design projects and the theme of "fit to form" is developed. Close 
E 122, Engineering Design II (033)
(LectureLabStudy Hours) This course will continue the freshman year experience in design. The design projects will be linked to the Mechanics of Solids course (integrated Statics and Strength of Materials) taught concurrently. The engineering method introduced in Engineering Design I will be reinforced. Further introduction of professional practice topics will be linked to their application and testing in case studies and project work. Basic concepts of design for environment and aesthetics will be introduced. Close 
E 231, Engineering Design III (032)
(LectureLabStudy Hours) This course continues the experiential sequence in design. Design projects are linked with Mechanics of Solids topics taught concurrently. Core design themes are further developed. Close 
E 232Engineering Design IV (237)
(LectureLabStudy Hours) This course continues the experiential sequence in design. Design projects are in, and lectures address the area of Electronics and Instrumentation. Core design themes are further developed. Close 
Close  3  3  6  4  E 322  Engineering Design VI (3)This course allows each discipline to address design topics specific to their discipline, but in the context of how design in the discipline fits into an integrated product and process development (IPPD) paradigm where appropriate. Even where IPPD is not significant to the discipline, students will gain some appreciation through specific requirements. The later part of this course is structured to allow for project selection, team formation and preparation of a proposal suitable for submission to a potential sponsor for the senior design capstone project. The core design themes will be further developed. Offered as a discipline specific course (e.g.: CE322, CHE322, CPE322, EE322, EM322, EN322, ME322, PEP322). Corequisites:E 345, Modeling and Simulation (306)(LectureLabStudy Hours) Development of deterministic and nondeterministic models for physical systems; engineering applications; simulation tools for deterministic and non deterministic systems; case studies and projects. Offered as a discipline specific course (e.g.: CE345, CHE345, CPE345, EE345, EM345, EN345,ME345, PEP345). Close 
E 355Engineering Economics (336)(LectureLabStudy Hours) Basics of cost accounting and cost estimation, costestimating techniques for engineering projects, quantitative techniques for forecasting costs, cost of quality. Basic engineering economics, including capital investment in tangible and intangible assets. Engineering project management techniques, including budget development, sensitivity analysis, risk and uncertainty analysis and total quality management concepts. Close 
Prerequisites:E 321Engineering Design V (032)
(LectureLabStudy Hours) This course includes both experimentation and openended design problems that are integrated with the Materials Processing course taught concurrently. Core design themes are further developed. Close 
Close  1  3  5  2  T.E.  Technical Elective (3)  3  0  6  3  T.E.  Technical Elective (3)  3  0  6  3  G.E.  General Elective (4)  3  0  6  3   Total  16  6  35  18 
 Term VII  Course #  Course Name  Lecture  Lab  Study  Credit 

T.E.  Technical Elective (3)  3  0  6  3  T.E.  Technical Elective (3)  3  0  6  3  G.E.  General Elective (4)  3  0  6  3  T.G.  Technogenesis Core (2)  3  0  6  3  T.E.  Technical Elective III  3  0  6  3  E 423  Engineering Design VIISenior design capstone courses. For most programs a capstone project spanning two semesters is required. Chemical Engineering and Environmental Engineering require projects of one semester duration. While the focus is on the capstone disciplinary design experience, all programs will include the twocredit core module on Engineering Economic Design (E421) during the first semester. Prerequisites:E 423Engineering Design VII (174)
(LectureLabStudy Hours) Senior design capstone courses. For most programs a capstone project spanning two semesters is required. Chemical Engineering and Environmental Engineering require projects of one semester duration. While the focus is on the capstone disciplinary design experience, all programs will include the twocredit core module on Engineering Economic Design (E421) during the first semester. Close 
Close  1  7  4  3   Total  16  7  34  18 
 Term VIII  Course #  Course Name  Lecture  Lab  Study  Credit 

T.E.  Technical Elective (3)  3  0  6  3  T.E.  Technical Elective (3)  3  0  6  3  G.E.  General Elective (4)  3  0  6  3  E 424  Engineering Design VIII (3)Senior design capstone courses include a capstone project spanning two semesters. Close  1  7  4  3  Hum  Humanities
 3  0  6  3   Total  13  7  28  15 
 