3+2 B.S. in Physics from Seton Hall University/M.S. in Engineering or Artificial Intelligence from Stevens Institute of Technology

Seton Hall offers this unique 3+2 dual degree program in which students can earn a bachelor's degree in Physics plus a master's degree in Engineering in partnership with Stevens Institute of Technology. Earning two degrees in just five years will give students the skills and experiences to be more versatile and marketable when pursuing future employment or education. Students interested in Engineering will be able to pursue programs in Mechanical and Electrical Engineering, Artificial Intelligence, Civil or Construction Engineering and Management and Ocean Engineering.
Transition to the graduate portion of the program at Stevens is contingent upon meeting the following conditions during your studies at Seton Hall:

Complete all required Physics course work outlined by your advisor in the first three years. Note, AP credits will not waive science requirements but can be applied as elective credit. Student needs to be placed in the right Math class (Calculus I) on their first semester and take Principle of Physics I and II and labs (or General Physics I and II and labs) on their first year and follow the course structure closely in order to finish the required courses from Seton Hall University in the first three years.
Maintain a minimum cumulative GPA of at least 3.2
Maintain a minimum cumulative GPA in all Math and Science courses of at least 3.0
Apply to the Master’s portion of the program in the start of your spring semester of junior year

Transition to the graduate portion of the program at Stevens is contingent upon meeting the following conditions during your studies at Seton Hall:

Complete all required Physics course work outlined by your advisor in the first three years. Note, AP credits will not waive science requirements but can be applied as elective credit. Student needs to be placed in the right Math class (Calculus I) on their first semester and take Principle of Physics I and II and labs (or General Physics I and II and labs) on their first year and follow the course structure closely in order to finish the required courses from Seton Hall University in the first three years.
Maintain a minimum cumulative GPA of at least 3.2
Maintain a minimum cumulative GPA in all Math and Science courses of at least 3.0
Apply to the Master’s portion of the program in the start of your spring semester of junior year

Concentrations:

B.S.+M.E. (Physics + Civil or Construction Engineering and Management)

Stevens’ M.E. in Mechanical Engineering Degree Requirements The Master of Engineering in Mechanical Engineering program offers seven areas of concentration and requires the completion of thirty credits. The program structure is as follows:

Two required core courses:

At least four courses from any one of the seven concentrations below must be chosen
Four elective courses must be chosen. These are explained in the “Elective Courses” section below.

Required Courses:

ME 635 Modeling and Simulation
ME 641 Engineering Analysis I

Concentration Courses:

Product Design

ME 520 Analysis and Design of Composites
ME 615 Thermal Systems Design
ME 658 Advanced Mechanics of Solids|
ME 659 Advanced Structural Design
ME 663 Finite Element Method
ME 665 Advanced Product Development

Manufacturing

ME 565 Introduction to Additive Manufacturing
ME 566 Design for Manufacturability
ME 644 Computer Integrated Design and Manufacturing
ME 645 Design of Production Systems
ME 652 Advanced Additive Manufacturing
ME 653 Design for Additive Manufacturing

Thermal, Fluids, Energy

ME 510 Power Plant Engineering
ME 601 Engineering Thermodynamics
ME 604 Advanced Heat Transfer
ME 615 Thermal Systems Design
ME 674 Fluid Dynamics
ME 675 Computational Fluid Dynamics and Heat Transfer

Pharmaceutical Manufacturing

ME 530 Introduction to Pharmaceutical Manufacturing
ME 535 Good Manufacturing Practice in Pharmaceutical Facilities Design
ME 540 Validation and Regulatory Affairs in Pharmaceutical Manufacturing
ME 628 Manufacturing and Packaging of Pharmaceutical Oral Solid Dosage Products
ME 629 Manufacturing of Sterile Pharmaceuticals
ME 647 Environmental Systems (HVAC) in Healthcare Manufacturing

Medical Devices

ME 525 Biomechanics
ME 526 Biofluid Mechanics
ME 580 Medical Device Design and Technology
ME 658 Advanced Mechanics of Solids
ME 660 Medical Devices Manufacturing
ME 674 Fluid Dynamics

Robotics & Control

ME 598 Introduction to Robotics
ME 621 Introduction to Modern Control Engineering
ME 622 Optimal Control and Estimation of Dynamical Systems
ME 631 Mechanical Vibrations I
ME 651 Analytic Dynamics
ME 654 Advanced Robotics

Micro/Nano Systems

ME 573 Introduction to MEMS
ME 581 Introduction to BioMEMS
ME 680 Fundamentals of Micro/Nano Fluidics
ME 681 Applications of Advanced Micro/Nano Materials, Structures, and Devices
NANO 525 Techniques of Surface and Nanostructure Characterization
NANO 600 Nanoscale Science and Technology

Elective Courses

Four elective courses may be chosen. Of these four courses, a maximum of two courses may be non-ME courses, and of the non-ME courses, a maximum of one may be a non-SES course (i.e. any Stevens graduate course). A student may substitute a Project (ME 800 Special Problems in Mechanical Engineering, 3 credits) or a Master's Thesis (ME 900 Thesis in Mechanical Engineering, 6 credits) for the appropriate number of courses.

Fourth Year Bridging Courses at Stevens

ME 342 Fluid Mechanics ( 3 - 3 - 0 )
Properties of a fluid, basic flow analysis techniques, fluid kinematics, hydrostatics, manometry, pressure distribution in rigid body motion of a fluid, control volume analysis, conservation of mass, linear and angular momentum, Bernoulli and energy equations, dimensional analysis, viscous flow in pipes, flow metering devices, external flows, estimation of lift and drag, turbo-machinery, open channel flow. Prerequisites: E 126, MA 221, ME 225

ME 354 Heat Transfer ( 3 - 3 - 0 )
Basic modes of heat transfer, steady heat conduction, extended surface heat transfer, transient heat conduction, computational methods, forced and free convection, boiling and condensation, thermal radiation, heat exchangers. Design projects. Prerequisites: MA 227, ME 234, and ME 342

ME 361 Design of Machine Components ( 3 - 3 - 0 )
Application of the principles of strength of materials to the analysis and design of machine parts. Stress and deflection analysis. Curved bars, multi-support shafts, torsion, cylinders under pressure, thermal stresses, creep, and relaxation, rotating disks, fasteners, springs, bearings, gears, brakes and other machine elements are considered. Failure of structural materials under cyclic stress. Prerequisites: MA 221, E 126

ME 483 Control Systems ( 3 - 3 - 0 )
Analysis and synthesis of single-input, single-output (SISO) linear time-invariant (LTI) feedback control systems. Laplace transforms, transfer functions, poles and zeros, block diagrams, time response, and frequency response. Performance criteria, multi-domain systems modeling, Routh-Hurwitz stability, root-locus, Bode plots, stability margins, compensator design, applications relevant to mechanical engineering. Prerequisites: MA 227, ME 225

ME 491 Manufacturing Processes and Systems ( 3 - 3 - 0 )
Analysis of both bulk-forming (forging, extrusion, rolling, etc.) and sheet-forming processes, metal cutting, and other related manufacturing processes; physics and stochastic nature of manufacturing processes and their effects on quality, rate, cost and flexibility; role of computer-aided manufacturing in manufacturing system automation; methodologies used to plan and
control a manufacturing system, forecasting, production scheduling, facility layout, inventory control, and project planning. Prerequisites: ME 345, ME 361

B.S.+M.S (Physics, Physics/ Electrical Engineering)

Fourth Year and Fifth Year at Stevens Institute of Technology

(13 to 15 credits will be transferred to Seton Hall University from Stevens Institute of Technology graduate courses when completed)

MS EE Program Requirements:

Course List
Code	Title	Hours
MS EE Program Requirements
1 mathematical foundation course (select one)		3
EE 602 Analytical Methods in Electrical Engineering ^FS or Math Methods PHYS 3119 at SHU ^*
EE 605 Probability and Stochastic Processes I ^FS or Statistical Physics PHYS 4219 at SHU ^*
Core Courses (select four)		12
EE 548 Digital Signal Processing ^F
EE 575 Introduction to Control Theory ^FS
EE 603 Linear Systems Theory (A/WS) ^FS
EE 608 Applied Modeling and Optimization (A) ^FS
EE 609 Communication Theory ^FS
Concentrations
Select 3 concentration courses in a chosen concentration		9
Communications
EE 510 Introduction to Radar Systems ^S
EE 583 Wireless Communications ^FS
EE 585 Physical Design of Wireless Systems
EE 582 Wireless Networking: Architecture, Protocols and Standards ^F
EE 584 Wireless Systems Security ^FS
EE 568 Software-Defined Radio
Power Engineering
EE 575 Introduction to Control Theory ^FS
EE 589 Introduction to Power Engineering ^F
EE 590 Smart Grid (A) ^S
EE 629 Internet of Things ^FS
CPE 679 Computer and Information Networks ^S
CPE 691 Information Systems Security ^S
Robotics and Automation Systems
EE 575 Introduction to Control Theory ^FS
EE 621 Nonlinear Control ^S
EE/CPE 631 Cooperating Autonomous Mobile Robots ^S
CPE 521 Introduction to Autonomous Mobile Robots ^F
PE 645 Image Processing and Computer Vision
EE 553 Engineering Programming: C++ ^FS
Microelectronics and Photonics
CPE 690 Introduction to VLSI Design (A) ^FS; ^S
EE/PEP 503 Introduction to Solid State Physics ^S
EE/PEP 507 Introduction to Microelectronics and Photonics ^FS
EE/PEP 509 Intermediate Waves and Optics ^S
EE/PEP 561 Solid State Electronics for Engineering I ^FS
EE/PEP 562 Solid State Electronics for Engineering II ^S
Artificial Intelligence
EE 551 Engineering Programming: Python ^FS
EE 672 Applied Game Theory and Evolutionary Algorithms ^F
EE 627 Data Acquisition and Processing I (Big Data) ^FS
EE 628 Data Acquisition and Processing II (Deep Learning) ^S
CPE 646 Pattern Recognition and Classification ^FS
CPE 695 Applied Machine Learning ^FS
Research project or master thesis
6-credit research project or master thesis		6
Total Hours		30

Model Program for B.S.+M.S (Physics + MS in Applied Artificial Intelligence (AAI))

Fourth Year and Fifth Year at Stevens Institute of Technology

(13 to 15 credits will be transferred to Seton Hall University from Stevens Institute of Technology graduate courses when completed)

MS in Applied Artificial Intelligence (AAI) Program Requirements

Required 30 credits (10 courses)

Course List
Code	Title	Hours
MS EE Program Requirements
1 mathematical foundation course (select one)		3
EE 602 Analytical Methods in Electrical Engineering ^FS or Math Methods PHYS 3119 at SHU ^*
EE 605 Probability and Stochastic Processes I ^FS or Statistical Physics PHYS 4219 at SHU ^*
Core Courses (select four)		12
CPE 646 Pattern Recognition and Classification ^FS
CPE 695 Applied Machine Learning ^FS
EE 608 Applied Modeling and Optimization ^FS
EE 627 Data Acquisition and Processing I (Big Data) ^FS
EE 628 Data Acquisition and Processing II (Deep Learning) ^S
EE 672 Applied Game Theory and Evolutionary Algorithms ^F
Concentrations
Select 3 courses associated with a concentration from the list below
Electrical Engineering		9
EE 548 Digital Signal Processing ^F
EE 575 Introduction to Control Theory ^FS
EE 582 Wireless Networking: Architecture, Protocols and Standards ^F
EE 603 Linear Systems Theory ^FS
EE 609 Communication Theory ^FS
EE 608 Applied Modeling & Optimization ^FS
Research project or master thesis
6-credit research project or master thesis		6
Total Hours		30

B.S.+M.E. (Physics + Civil or Construction Engineering and Management)

Fourth Year and Fifth Year at Stevens Institute of Technology

(13 to 15 credits will be transferred to Seton Hall University from Stevens Institute of Technology graduate courses when completed)

Suggested Course Sequence at Stevens

The following are the suggested courses to be taken at Stevens Institute of Technology (Stevens) for the fourth and fifth years to satisfy B.S. requirements at Seton Hall University and M.E requirements at Stevens. Fifteen credits from the undergraduate curriculum at Stevens can be transferred from Stevens to Seton Hall University.

Plan of Study Grid
Fourth Year
First Semester		Hours
CE 342 Fluid Mechanics (required)		4
CE 483 Geotechnical Eng. (required)		3
CE 484 Reinforced Concrete Design (required)		3
CE 518 Advanced Mechanics of Materials (required but will count towards the ME degree)		3
	Hours	13
Second Semester
CE 373 Structural Analysis (required)		3
CE/CM 541 Project Management for Construction		3
CE 565 Numerical Methods in Civil Engineering		3
CM XXX Machine learning in CE applications		3
	Hours	12
Fifth Year
First Semester
Select 9 credits		9
(from courses at 500 or 600 level)
	Hours	9
Second Semester
Select 9 credits		9
(from courses at 500 or 600 level)
	Hours	9
	Total Hours	43

Model Program for B.S.+M.S. (Physics + Ocean Engineering)

Fourth Year and Fifth Year at Stevens Institute of Technology

(13 to 15 credits will be transferred to Seton Hall University from Stevens Institute of Technology graduate courses when completed)

Suggested Course Sequence at Stevens

The following are the suggested courses to be taken at Stevens Institute of Technology (Stevens) for the fourth and fifth years to satisfy B.S. requirements at Seton Hall University and M.E requirements at Stevens. Fifteen credits from the undergraduate curriculum at Stevens can be transferred from Stevens to Seton Hall University.

Plan of Study Grid
Fourth Year
First Semester		Hours
CE 342 Fluid Mechanics (required)		4
OE 520 new Ocean Wave Mechanics (required)		3
Applied Mathematics course		3
	Hours	10
Second Semester
CE 373 Structural Analysis (required)		3
ME 225 Dynamics		3
CM XXX Machine learning in CE applications		3
	Hours	9
Fifth Year
First Semester
OE 630 Hydrodynamics (required)		3
OE 527 Laboratory in Naval Engineering (required for naval concentration)		3
OE 531 Total ship design (required for naval concentration)		3
Select one class:		3
OE 525
OE 578
OE 585
OE 589
OE 535
	Hours	12
Second Semester
OE 511 Urban Oceanography(required)		3
OE 524 Introduction to ship design (required for naval concentration)		3
Select one class:		3
OE 560
OE 578
OE 585
OE 589
OE 535
	Hours	9
	Total Hours	40

B.S in Physics + M.S. in Biomedical Engineering (5 year)

Stevens’ M.S. in Biomedical Engineering Degree Requirements

Stevens is a leader in the field of biomedical engineering, engaging in visionary research and collaboration with researchers in medical centers, the biotech industry and government. The Biomedical Engineering graduate program is designed to foster independent scholarly work while providing flexibility to accommodate each student’s interests and career goals. Our graduates are leaders in academia, industries related to medicine, biotechnology and in newly emerging fields based on biological technology. Upon completion of the program, the students are expected to have broad knowledge and fundamental understanding of biomedical engineering principles, and gain a deeper understanding of advanced technologies and applications of biomedical engineering for solving problems in medicine.

Each full time M. S. student is required to complete 30 credits of graduate work that includes 9 required credits of common core course work. The students are required to take BME 700 (0 credit) for one semester. The additional 21 graduate credits of course work can be tailored to aid the students’ research project or their professional development goals. Students may elect to choose thesis (6-9 credits) or non-thesis options. Students with thesis and non-thesis option may elect to choose a specific concentration or the general concentration. Students who elect a specific concentration will need to take the 9 credits of the required core courses, 9 credits for the specific sub-core courses, and 6 credits for the corresponding technical elective courses. The remaining credits can be taken from the elective courses with the approval of the advisor. Students who elect the general concentration will need to take the 9 credits of the required core courses, 9 credits for the general sub-core courses, and 6 credits for the technical elective courses, and the remaining credits with the approval of the advisor. For students who have already taken courses similar to the required core and sub-core courses, they can petition to substitute them. The request will be approved through the case-by-case basis by the BME Graduate Curriculum Committee in consultation with the student’s advisor.

Students may be admitted to the M. S. program in BME with undergraduate engineering or science degrees. Students without an undergraduate engineering degree will need to complete Differential Equations prior to starting the program or immediately after starting the program. There may be other additional courses to complete prior to arriving or upon arrival to help the student succeed here at Stevens, which will be determined on an individual basis in consultation with the BME graduate program advisor.

Course requirements in the BME M.S. program:

All graduate BME students are required to complete the following four core courses.

Common Core Courses for All Students:

BME 502 Physiology for Engineers I
BME 503 Physiology for Engineers II
BME 700 Seminars in BME (0 credit)
BME/BIO 507 Applications of Statistics in Biomedical

Concentration Courses:

MS with Medical Devices, Biomaterials and Regenerative Medicine concentration

Sub-Core: 9 credits

BME 505 Biomaterials
BME 565 Biomedical Device Design Project
BME 602 Principles of Tissue Engineering

Electives: for Non-thesis option: 6 credits required: Pick 2 courses from below; for Thesis option: 3 credits required; pick 1 course from below

BME 515 Natural polymers
BME 520 Cardiopulmonary Mechanics and Physiology
BME 558 Brain-Machine Interfaces
BME 570 Lab-on-a-Chip Tech in Biomed Apps
ME 580 Medical Device Design and Technology
BME 601 Advanced BME Lab

ME/BME 656 Wearable robotics and sensors
BME 675 Nanomedicine
BIO 687 Molecular Genetics
BME 600 Strategies and Principles of Biomedical Design
BME 650 Advanced Biomaterials
BIO/BME 690 Cellular Signaling Transduction

MS with Rehabilitation and Biomechanics concentration

Sub-Core: 9 credits

BME 520 Cardiopulmonary Mechanics and Physiology
BME 556 Advanced Biomechanics
BME 558 Brain-Machine Interfaces

Electives: for Non-thesis option: 6 credits required: Pick 2 courses from below; for Thesis option: 3 credits required; pick 1 course from below

BME 504 Medical Instrumentation & Imaging
BME 506 Biomechanics
BME 560 Movement Control Rehabilitation
BME 561 Biofeedback Innovations for Musculoskeletal Rehabilitation
ME/BME 656 Wearable robotics and sensors
ME/BME 692 Biomechanics of Brain

MS with Medical Imaging and Artificial Intelligence

Sub-Core: 9 credits

BME 504 Medical Instrumentation & Imaging
BME 571 Machine Learning in Biomedical Engineering
BIO 683 Microscopy Imaging in Biological Systems

Electives: for Non-thesis option: 6 credits required: Pick 2 courses from below; for Thesis option: 3 credits required; pick 1 course from below CS 541 Artificial Intelligence

CS 544 Health Informatics
BME 558 Brain-Machine Interfaces
BME 601 Advanced BME
CPE 646 Pattern Recognition and Classification
ME/BME 656 Wearable robotics and sensors
BIA 656 Advanced Data Analytics and Machine Learning
CHE/BME 695 Bio/Nano Photonics

MS with General Concentration

Sub-Core: 9 credits

BME 504 Medical Instrumentation & Imaging
BME 505 Biomaterials
BME 506 Biomechanics

Electives: for Non-thesis option: 6 credits required: Pick 2 courses from below; for Thesis option: 3 credits required; pick 1 course from below

BME 515 Natural polymers
BME 520 Cardiopulmonary Mechanics and Physiology
CS 541 Artificial Intelligence
CS 544 Health Informatics
BME 556 Advanced Biomechanics
BME 558 Brain-Machine Interfaces
BME 560 Movement Control Rehabilitation
BME 561 Biofeedback Innovations for Musculoskeletal Rehabilitation
BME 565 Biomedical Device Design Project
BME 570 Lab-on-a-Chip Tech in Biomed Apps
BME 571 Machine Learning in Biomedical Engineering
ME 580 Medical Device Design and Technology
BME 600 Strategies and Principles of Biomedical Design
BME 601 Advanced BME Lab
BME 602 Principles of Tissue Engineering
BME 650 Advanced Biomaterials
ME/BME 656 Wearable robotics and sensors
CPE 646 Pattern Recognition and Classification
BIA 656 Advanced Data Analytics and Machine Learning
BME 675 Nanomedicine
BIO 683 Microscopy Imaging in Biological Systems
BIO 687 Molecular Genetics
BIO/BME 690 Cellular Signaling Transduction
ME/BME 692 Biomechanics of Brain
CHE/BME 695 Bio/Nano Photonics
BME 800 Special problem in BME

BME 901 Research project in BME

Biomedical Engineering
Concentration	Thesis	Non-Thesis
Medical Devices, Biomaterials and Regenerative Medicine	1) Core: BME502; BME503; BME507; BME700 2) Concentration core: BME505; BME565; ME580 3) Select one concentration elective: BME515; BME520; BME558; BME570; BME600; BME601; BME602; BME650; ME/BME656; BME675; BIO687; BIO/BME690; 4) Thesis: BME900 (6 credits)	1) Core: BME502; BME503; BME507; BME700 2) Concentration core:BME505; BME565; ME580 3) Select two concentration electives: BME515; BME520; BME558; BME570; BME600; BME601; BME602; BME650; ME/BME656; BME675; BIO687; BIO/BME690; 4) 6-credits for free electives
Rehabilitation and Biomechanics	1) Core: BME502; BME503; BME507; BME700 2) Concentration core: BME520; BME556; ME558 3) Select one concentration elective: BME504; BME504; BME560; BME561; ME/BME656; ME/BME692; 4) Thesis: BME900 (6 credits)	1) Core: BME502; BME503; BME507; BME700 2) Concentration core: BME520; BME556; BME558 3) Select two concentration electives: BME504; BME506; BME560; BME561; ME/BME656; ME/BME692 4) 6 credits for free electives
Medical Imaging and artificial intelligence	1) Core: BME502; BME503; BME507; BME700 2) Concentration core: BME504; BME571; BIO683 3) Select one concentration elective: CS541; CS544; BME558; BME601; CPE656; BIA656; ME/BME656; CHE/BME695; 4) Thesis: BME900 (6 credits)	1) Core: BME502; BME503; BME507; BME700 2) Concentration core: BME504; BME571; BIO683 3) Select two concentration electives: CS541; CS544; BME558; BME601; CPE656; BIA656; ME/BME656; CHE/BME695; 4) 6 credits for free electives
General Concentration	1) Core: BME502; BME503; BME507; BME700 2) Sub-core: BME504; BME505; BME506 3) Select one technical elective: BME515; BME520; CS541; CS544; BME556; BME558; BME560; BME561; BME565; BME570; BME571; ME580; BME600; BME601; BME602; BME650; ME/BME656; CPE656; BIA656; BME675; BIO683; BIO687; BIO/BME690; ME/BME692; CHE/BME695; BME800; BME901; 4) Thesis: BME900 (6- credits)	1) Core: BME502; BME503; BME507; BME700 2) Sub-core: BME504; BME505; BME506 3) Select two technical electives: BME515; BME520; CS541; CS544; BME556; BME558; BME560; BME561; BME565; BME570; BME571; ME580; BME600; BME601; BME602; BME650; ME/BME656; CPE656; BIA656; BME675; BIO683; BIO687; BIO/BME690; ME/BME692; CHE/BME695; BME800; BME901 4) 6 credits for free electives

List of courses for the program:

BME 502 Physiology for Engineers I
BME 503 Physiology for Engineers II
BME 504 Medical Instrumentation and Imaging
BME 505 Biomaterials
BME 506 Biomechanics
BME/BIO 507 Applications of Statistics in Biomedical Engineering and Health Sciences
BME 515 Natural Polymers
BME 520 Cardiopulmonary Mechanics and Physiology
BME 556 Advanced Biomechanics
BME 558 Intro to Brain-Machine Interfaces
BME 560 Movement Control Rehabilitation
BME 561 Biofeedback Innovations for Musculoskeletal Rehabilitation
BME 565 Biomedical Device Design Project
BME 570 Lab-on-a-Chip Tech in Biomed Apps
BME 571 Machine Learning in Biomedical Engineering
BIO/BME 584 Pathophysiology
BME 600 Strategies and Principles of Biomedical Design
BME 601 Advanced Biomedical Engineering Lab
BME 602 Principles of Tissue Engineering
BME 640 Introduction to Clinical Research
BME 650 Advanced Biomaterials
BME 675 Nanomedicine
BIO/BME 690 Cellular Signaling Transduction
ME/BME 692 Biomechanics of the Brain
CHE/BME 695 Bio/Nano Photonics
ME/BME 698 Continuum Biomechanics
BME 700 Seminars in BME
BME 701 Selected Topics in Biomedical Engineering
BME 702 Curricular Practical Training
BME 800 Special problem in BME
BME 810 Special Topics in BME
BME 900 Thesis in BME
BME 901 Research project in BME
BME 950 BME Design Project

Additional courses are chosen with an advisor’s guidance and will depend on the student’s interests and background.

Concentrations:

Model Program for B.S.+M.E. (Physics + Mechanical Engineering)

Plan of Study Grid
First Year
First Semester		Hours
PHYS 1705	Principles of Physics I	3
PHYS 1815	Physics Lab and Data Analy I	2
MATH 1501	Calculus I - Math - Phys Sci	4
ENGL 1201	Core English I	3
CORE 1001	University Life	1
CORE 1101	Journey of Transformation	3
	Hours	16
Second Semester
PHYS 1706	Principles of Physics II	3
PHYS 1816	Physics Lab and Data Analy II	1
MATH 1511	Calculus II - Math - Phys Sci	4
ENGL 1202	Core English II	3
BS Core Course		3
Diversity Course		3
	Hours	17
Second Year
First Semester
PHYS 2883	Electronics I	3
PHYS 2185	Intro to Modern Physics	4
MATH 2511	Calculus III - Math - Phys Sci	4
CHEM 1107 or CHEM 1123 and CHEM 1126	Principles of Chemistry I or General Chemistry I and General Chemistry II Lab	5
BS Core Course		3
	Hours	19
Second Semester
PHYS 2186	Waves and Oscillations	3
PHYS 2112	Phys Appl of Math Techniques	4
CSAS 1113	Computing for Science Majors	4
CORE 2101	Christianity and Cult in Dial.	3
CHEM 1108 or CHEM 1124 and CHEM 1126	Principles of Chemistry II or General Chemistry II and General Chemistry II Lab	4
	Hours	18
Third Year
First Semester
PHYS 3121	Mechanics I	3
PHYS 3185 or PHYS 3119	Electricity and Magnetism I or Math Methods of Physics I	3
PHYS 3812	Advanced Laboratory I	2
BS Core Course ^*		3
BS Core Course ^*		3
BS Core Course ^*		3
	Hours	17
Second Semester
PHYS 3122	Mechanics II	3
PHYS 3815	Advanced Laboratory II	2
PHYS 4290	Research in Physics I	2
CORE 3XXX: Engaging the World ^*		3
BS Core Course ^*		3
BS Core Course ^*		3
BS Core Course ^*		3
	Hours	19
	Total Hours	106

*: BS Core courses are in the areas of: Philosophy and Religion, Historical/Aesthetic/Literature, Language/Multicultural, Social and Behavioral Sciences

Fourth Year and Fifth Year at Stevens Institute of Technology

(13 to 15 credits will be transferred to Seton Hall University from Stevens Institute of Technology graduate courses when completed)

Suggested Course Sequence at Stevens

The following are the suggested courses to be taken at Stevens Institute of Technology (Stevens) for the fourth and fifth years to satisfy B.S. requirements at Seton Hall University and M.E requirements at Stevens. Fifteen credits from the undergraduate curriculum at Stevens can be transferred from Stevens to Seton Hall University.

Plan of Study Grid
Fourth Year
First Semester		Hours
ME 342 Fluid Mechanics		3
ME 354 Heat Transfer		3
ME 361 Design of Machine Components		3
ME 483 Control Systems		3
	Hours	12
Second Semester
ME 491 Manufacturing Processes and System		3
ME 635 Modeling & Simulation; required		3
ME 641 Engineering Analysis I; required		3
ME concentration Course I		3
	Hours	12
Fifth Year
First Semester
ME concentration Course II		3
ME concentration Course III		3
ME Elective Course II		3
ME Elective Course III		3
	Hours	12
Second Semester
ME concentration Course IV		3
ME Elective Course I		3
ME Elective Course IV		3
	Hours	9
	Total Hours	45

Model Program for B.S.+M.S. (Physics + Electrical Engineering)

Plan of Study Grid
First Year
First Semester		Hours
PHYS 1705	Principles of Physics I	3
PHYS 1815	Physics Lab and Data Analy I	2
MATH 1501	Calculus I - Math - Phys Sci	4
ENGL 1201	Core English I	3
CORE 1001	University Life	1
CORE 1101	Journey of Transformation	3
	Hours	16
Second Semester
PHYS 1706	Principles of Physics II	3
PHYS 1816	Physics Lab and Data Analy II	1
MATH 1511	Calculus II - Math - Phys Sci	4
ENGL 1202	Core English II	3
BS Core Course ^*		3
Diversity Course		3
	Hours	17
Second Year
First Semester
PHYS 2883	Electronics I	3
PHYS 2185	Intro to Modern Physics	4
MATH 2511	Calculus III - Math - Phys Sci	4
CHEM 1107 or CHEM 1123 and CHEM 1125	Principles of Chemistry I or General Chemistry I and General Chemistry Lab I	5
BS Core Course ^*		3
	Hours	19
Second Semester
PHYS 2186	Waves and Oscillations	3
PHYS 2112	Phys Appl of Math Techniques	4
CSAS 1113	Computing for Science Majors	4
CORE 2101	Christianity and Cult in Dial.	3
CHEM 1108 or CHEM 1123 and CHEM 1125	Principles of Chemistry II or General Chemistry I and General Chemistry Lab I	4
	Hours	18
Third Year
First Semester
PHYS 3121 or PHYS 3119	Mechanics I or Math Methods of Physics I	3
PHYS 3185	Electricity and Magnetism I	3
PHYS 3815	Advanced Laboratory II	2
BS Core Course ^*		3
BS Core Course ^*		3
BS Core Course ^*		3
	Hours	17
Second Semester
PHYS 4211 or PHYS 4219	Quantum Mechanics I or Statistical Physics	3
PHYS 4812 or PHYS 4290	Advanced Laboratory III or Research in Physics I	2
CORE 3XXX: Engaging the World		3
BS Core Course		3
BS Core Course ^*		3
BS Core Course ^*		3
	Hours	17
	Total Hours	104

*: BS Core courses are in the areas of: Philosophy and Religion, Historical/Aesthetic/Literature, Language/Multicultural, Social and Behavioral Sciences

Fourth Year and Fifth Year at Stevens Institute of Technology

(13 to 15 credits will be transferred to Seton Hall University from Stevens Institute of Technology graduate courses when completed)

Suggested Course Sequence at Stevens

The following are the suggested courses to be taken at Stevens Institute of Technology (Stevens) for the fourth and fifth years to satisfy B.S. requirements at Seton Hall University and M.E requirements at Stevens. Fifteen credits from the undergraduate curriculum at Stevens can be transferred from Stevens to Seton Hall University.

[F] – Offered in Fall semester
[S] – Offered in Spring semester

Course List
Code	Title	Hours
MS EE Program Requirements
1 mathematical foundation course (select one)		3
EE 602 Analytical Methods in Electrical Engineering ^FS or Math Methods PHYS 3119 at SHU ^*
EE 605 Probability and Stochastic Processes I ^FS or Statistical Physics PHYS 4219 at SHU ^*
Core Courses (select four)		12
EE 548 Digital Signal Processing ^F
EE 575 Introduction to Control Theory ^FS
EE 603 Linear Systems Theory (A/WS) ^FS
EE 608 Applied Modeling and Optimization (A) ^FS
EE 609 Communication Theory ^FS
Concentrations
Select 3 concentration courses in a chosen concentration		9
Communications
EE 510 Introduction to Radar Systems ^S
EE 583 Wireless Communications ^FS
EE 585 Physical Design of Wireless Systems
EE 582 Wireless Networking: Architecture, Protocols and Standards ^F
EE 584 Wireless Systems Security ^FS
EE 568 Software-Defined Radio
Power Engineering
EE 575 Introduction to Control Theory ^FS
EE 589 Introduction to Power Engineering ^F
EE 590 Smart Grid (A) ^S
EE 629 Internet of Things ^FS
CPE 679 Computer and Information Networks ^S
CPE 691 Information Systems Security ^S
Robotics and Automation Systems
EE 575 Introduction to Control Theory ^FS
EE 621 Nonlinear Control ^S
EE/CPE 631 Cooperating Autonomous Mobile Robots ^S
CPE 521 Introduction to Autonomous Mobile Robots ^F
PE 645 Image Processing and Computer Vision
EE 553 Engineering Programming: C++ ^FS
Microelectronics and Photonics
CPE 690 Introduction to VLSI Design (A) ^FS; ^S
EE/PEP 503 Introduction to Solid State Physics ^S
EE/PEP 507 Introduction to Microelectronics and Photonics ^FS
EE/PEP 509 Intermediate Waves and Optics ^S
EE/PEP 561 Solid State Electronics for Engineering I ^FS
EE/PEP 562 Solid State Electronics for Engineering II ^S
Artificial Intelligence
EE 551 Engineering Programming: Python ^FS
EE 672 Applied Game Theory and Evolutionary Algorithms ^F
EE 627 Data Acquisition and Processing I (Big Data) ^FS
EE 628 Data Acquisition and Processing II (Deep Learning) ^S
CPE 646 Pattern Recognition and Classification ^FS
CPE 695 Applied Machine Learning ^FS
Research project or master thesis
6-credit research project or master thesis		6
Total Hours		30

*: If SHU course used for Math Foundation requirements, a 3-credit elective course will be taken at Stevens instead of the math foundation requirement

Model Program for B.S.+M.S. (Physics + MS in Applied Artificial Intelligence (AAI)

Plan of Study Grid
First Year
First Semester		Hours
PHYS 1705	Principles of Physics I	3
PHYS 1815	Physics Lab and Data Analy I	2
MATH 1501	Calculus I - Math - Phys Sci	4
ENGL 1201	Core English I	3
CORE 1001	University Life	1
CORE 1101	Journey of Transformation	3
	Hours	16
Second Semester
PHYS 1706	Principles of Physics II	3
PHYS 1816	Physics Lab and Data Analy II	1
MATH 1511	Calculus II - Math - Phys Sci	4
ENGL 1202	Core English II	3
BS Core Course ^*		3
Diversity Course		3
	Hours	17
Second Year
First Semester
PHYS 2883	Electronics I	3
PHYS 2185	Intro to Modern Physics	4
MATH 2511	Calculus III - Math - Phys Sci	4
CHEM 1107 or CHEM 1123 and CHEM 1125	Principles of Chemistry I or General Chemistry I and General Chemistry Lab I	5
BS Core Course ^*		3
	Hours	19
Second Semester
PHYS 2186	Waves and Oscillations	3
PHYS 2112	Phys Appl of Math Techniques	4
CSAS 1113	Computing for Science Majors	4
CORE 2101	Christianity and Cult in Dial.	3
CHEM 1108 or CHEM 1123 and CHEM 1125	Principles of Chemistry II or General Chemistry I and General Chemistry Lab I	4
	Hours	18
Third Year
First Semester
PHYS 3121 or PHYS 3119	Mechanics I or Math Methods of Physics I	3
PHYS 3185	Electricity and Magnetism I	3
PHYS 3812	Advanced Laboratory I	2
BS Core Course ^*		3
BS Core Course ^*		3
BS Core Course ^*		3
	Hours	17
Second Semester
PHYS 4211 or PHYS 4219 or PHYS 3217	Quantum Mechanics I or Statistical Physics or Modern Optics	3
PHYS 3815	Advanced Laboratory II	2
PHYS 4290	Research in Physics I	2
CORE 3XXX: Engaging the World		3
BS Core Course		3
BS Core Course ^*		3
BS Core Course ^*		3
	Hours	19
	Total Hours	106

*: BS Core courses are in the areas of:
Philosophy and Religion, Historical/Aesthetic/Literature, Language/Multicultural, Social and Behavioral Sciences

Fourth Year and Fifth Year at Stevens Institute of Technology

(13 to 15 credits will be transferred to Seton Hall University from Stevens Institute of Technology graduate courses when completed)

MS in Applied Artificial Intelligence (AAI) Program Requirements

Required 30 credits (10 courses)

Course List
Code	Title	Hours
MS EE Program Requirements
1 mathematical foundation course (select one)		3
EE 602 Analytical Methods in Electrical Engineering ^FS or Math Methods PHYS 3119 at SHU ^*
EE 605 Probability and Stochastic Processes I ^FS or Statistical Physics PHYS 4219 at SHU ^*
Core Courses (select four)		12
CPE 646 Pattern Recognition and Classification ^FS
CPE 695 Applied Machine Learning ^FS
EE 608 Applied Modeling and Optimization ^FS
EE 627 Data Acquisition and Processing I (Big Data) ^FS
EE 628 Data Acquisition and Processing II (Deep Learning) ^S
EE 672 Applied Game Theory and Evolutionary Algorithms ^F
Concentrations
Select 3 courses associated with a concentration from the list below
Electrical Engineering		9
EE 548 Digital Signal Processing ^F
EE 575 Introduction to Control Theory ^FS
EE 582 Wireless Networking: Architecture, Protocols and Standards ^F
EE 603 Linear Systems Theory ^FS
EE 609 Communication Theory ^FS
EE 608 Applied Modeling & Optimization ^FS
Research project or master thesis
6-credit research project or master thesis		6
Total Hours		30

*: If SHU course used for Math Foundation requirements, a 3-credit elective course will be taken at Stevens instead of the math foundation requirement

B.S.+M.S. (Physics + Civil or Construction Engineering and Management)

Plan of Study Grid
First Year
First Semester		Hours
PHYS 1705	Principles of Physics I	3
PHYS 1815	Physics Lab and Data Analy I	2
MATH 1501	Calculus I - Math - Phys Sci	4
ENGL 1201	Core English I	3
CORE 1001	University Life	1
CORE 1101	Journey of Transformation	3
	Hours	16
Second Semester
PHYS 1706	Principles of Physics II	3
PHYS 1816	Physics Lab and Data Analy II	1
MATH 1511	Calculus II - Math - Phys Sci	4
ENGL 1202	Core English II	3
BS Core Course ^*		3
Diversity Course		3
	Hours	17
Second Year
First Semester
PHYS 2883	Electronics I	3
PHYS 2185	Intro to Modern Physics	4
MATH 2511	Calculus III - Math - Phys Sci	4
CHEM 1107 or CHEM 1123 and CHEM 1125	Principles of Chemistry I or General Chemistry I and General Chemistry Lab I	5
BS Core Course ^*		3
	Hours	19
Second Semester
PHYS 2186	Waves and Oscillations	3
PHYS 2112	Phys Appl of Math Techniques	4
CSAS 1113	Computing for Science Majors	4
CORE 2101	Christianity and Cult in Dial.	3
CHEM 1108 or CHEM 1123 and CHEM 1125	Principles of Chemistry II or General Chemistry I and General Chemistry Lab I	4
	Hours	18
Third Year
First Semester
PHYS 3121 or PHYS 3119	Mechanics I or Math Methods of Physics I	3
PHYS 3185 or PHYS 3119	Electricity and Magnetism I or Math Methods of Physics I	3
PHYS 3812	Advanced Laboratory I	2
BS Core Course ^*		3
BS Core Course ^*		3
BS Core Course ^*		3
	Hours	17
Second Semester
PHYS 3122	Mechanics II	3
PHYS 3815	Advanced Laboratory II	2
PHYS 4290	Research in Physics I	2
CORE 3XXX: Engaging the World		3
BS Core Course		3
BS Core Course ^*		3
BS Core Course ^*		3
	Hours	19
	Total Hours	106

*: BS Core courses are in the areas of:
Philosophy and Religion, Historical/Aesthetic/Literature, Language/Multicultural, Social and Behavioral Sciences

Fourth Year and Fifth Year at Stevens Institute of Technology

(13 to 15 credits will be transferred to Seton Hall University from Stevens Institute of Technology graduate courses when completed)

Suggested Course Sequence at Stevens

The following are the suggested courses to be taken at Stevens Institute of Technology (Stevens) for the fourth and fifth years to satisfy B.S. requirements at Seton Hall University and M.E requirements at Stevens. Fifteen credits from the undergraduate curriculum at Stevens can be transferred from Stevens to Seton Hall University.

Plan of Study Grid
Fourth Year
First Semester		Hours
CE 342 Fluid Mechanics (required)		4
OE 520 new Ocean Wave Mechanics (required)		3
Applied Mathematics course		3
	Hours	10
Second Semester
CE 373 Structural Analysis (required)		3
ME 225 Dynamics		3
CM XXX Machine learning in CE applications		3
	Hours	9
Fifth Year
First Semester
OE 630 Hydrodynamics (required)		3
OE 527 Laboratory in Naval Engineering (required for naval concentration)		3
OE 531 Total ship design (required for naval concentration)		3
Select one class:		3
OE 525
OE 578
OE 585
OE 589
OE 535
	Hours	12
Second Semester
OE 511 Urban Oceanography(required)		3
OE 524 Introduction to ship design (required for naval concentration)		3
Select one class:		3
OE 560
OE 578
OE 585
OE 589
OE 535
	Hours	9
	Total Hours	40

Model Program for B.S.+M.S. (Physics + Ocean Engineering)

Plan of Study Grid
First Year
Second Semester		Hours
PHYS 1706	Principles of Physics II	3
PHYS 1816	Physics Lab and Data Analy II	1
MATH 1511	Calculus II - Math - Phys Sci	4
ENGL 1202	Core English II	3
BS Core Course ^*		3
Diversity Course		3
	Hours	17
First Semester
PHYS 1705	Principles of Physics I	3
PHYS 1815	Physics Lab and Data Analy I	2
MATH 1501	Calculus I - Math - Phys Sci	4
ENGL 1201	Core English I	3
CORE 1001	University Life	1
CORE 1101	Journey of Transformation	3
	Hours	16
Second Year
Second Semester
PHYS 2186	Waves and Oscillations	3
PHYS 2112	Phys Appl of Math Techniques	4
CSAS 1113	Computing for Science Majors	4
CORE 2101	Christianity and Cult in Dial.	3
CHEM 1108 or CHEM 1123 and CHEM 1125	Principles of Chemistry II or General Chemistry I and General Chemistry Lab I	4
	Hours	18
First Semester
PHYS 2883	Electronics I	3
PHYS 2185	Intro to Modern Physics	4
MATH 2511	Calculus III - Math - Phys Sci	4
CHEM 1107 or CHEM 1123 and CHEM 1125	Principles of Chemistry I or General Chemistry I and General Chemistry Lab I	5
BS Core Course ^*		3
	Hours	19
Third Year
Second Semester
PHYS 3122	Mechanics II	3
PHYS 3815	Advanced Laboratory II	2
PHYS 4290	Research in Physics I	2
CORE 3XXX: Engaging the World		3
BS Core Course		3
BS Core Course ^*		3
BS Core Course ^*		3
	Hours	19
First Semester
PHYS 3121 or PHYS 3119	Mechanics I or Math Methods of Physics I	3
PHYS 3185 or PHYS 3119	Electricity and Magnetism I or Math Methods of Physics I	3
PHYS 3812	Advanced Laboratory I	2
BS Core Course ^*		3
BS Core Course ^*		3
BS Core Course ^*		3
	Hours	17
	Total Hours	106

*: BS Core courses are in the areas of:
Philosophy and Religion, Historical/Aesthetic/Literature, Language/Multicultural, Social and Behavioral Sciences

Fourth Year and Fifth Year at Stevens Institute of Technology

(13 to 15 credits will be transferred to Seton Hall University from Stevens Institute of Technology graduate courses when completed)

Suggested Course Sequence at Stevens

The following are the suggested courses to be taken at Stevens Institute of Technology (Stevens) for the fourth and fifth years to satisfy B.S. requirements at Seton Hall University and M.E requirements at Stevens. Fifteen credits from the undergraduate curriculum at Stevens can be transferred from Stevens to Seton Hall University.

Plan of Study Grid
Fourth Year
First Semester		Hours
CE 342 Fluid Mechanics (required)		4
OE 520 new Ocean Wave Mechanics (required)		3
Applied Mathematics course		3
	Hours	10
Second Semester
CE 373 Structural Analysis (required)		3
ME 225 Dynamics		3
CM XXX Machine learning in CE applications		3
	Hours	9
Fifth Year
First Semester
OE 630 Hydrodynamics (required)		3
OE 527 Laboratory in Naval Engineering (required for naval concentration)		3
OE 531 Total ship design (required for naval concentration)		3
Select one class:		3
OE 525
OE 578
OE 585
OE 589
OE 535
	Hours	12
Second Semester
OE 511 Urban Oceanography(required)		3
OE 524 Introduction to ship design (required for naval concentration)		3
Select one class:		3
OE 560
OE 578
OE 585
OE 589
OE 535
	Hours	9
	Total Hours	40

Model Program for B.S.+M.S. (Physics + Biomedical Engineering) (5 year)

Plan of Study Grid
First Year
First Semester		Hours
PHYS 1705	Principles of Physics I	3
PHYS 1815	Physics Lab and Data Analy I	2
MATH 1501	Calculus I - Math - Phys Sci	4
ENGL 1201	Core English I	3
CORE 1001	University Life	1
CORE 1101	Journey of Transformation	3
	Hours	16
Second Semester
PHYS 1706	Principles of Physics II	3
PHYS 1816	Physics Lab and Data Analy II	1
MATH 1511	Calculus II - Math - Phys Sci	4
ENGL 1202	Core English II	3
BS Core ^*		3
Diversity Course		3
	Hours	17
Second Year
First Semester
PHYS 2883	Electronics I	3
PHYS 2185	Intro to Modern Physics	4
MATH 2511	Calculus III - Math - Phys Sci	4
CHEM 1107	Principles of Chemistry I	5
or CHEM 1123/ CHEM 1125 General Chemistry I and Lab (4)
BS Core ^*		3
	Hours	19
Second Semester
PHYS 2186	Waves and Oscillations	3
PHYS 2112	Phys Appl of Math Techniques	4
CSAS 1113	Computing for Science Majors	4
CORE 2101	Christianity and Cult in Dial.	3
CHEM 1108	Principles of Chemistry II	4
or CHEM 1124/ CHEM 1126 General Chemistry II and Lab (4)
	Hours	18
Third Year
First Semester
PHYS 3121	Mechanics I	3
PHYS 3185	Electricity and Magnetism I	3
or PHYS 3119 Math Methods of Physics I (4)
PHYS 3812	Advanced Laboratory I	2
BS Core ^*		3
BS Core ^*		3
BS Core ^*		3
	Hours	17
Second Semester
PHYS 3122	Mechanics II	3
PHYS 3815	Advanced Laboratory II	2
PHYS 4290	Research in Physics I	2
BS Core ^*		3
CORE III 3XXX Engaging The World		3
BS Core ^*		3
BS Core ^*		3
	Hours	19
	Total Hours	106

*: BS Core courses are in the areas of: Philosophy and Religion, Historical/Aesthetic/Literature, Language/Multicultural, Social and Behavioral Sciences

Fourth Year and Fifth Year at Stevens Institute of Technology

(13 to 15 credits will be transferred to Seton Hall University from Stevens Institute of Technology graduate courses when completed)

Suggested Course Sequence at Stevens

The following are the suggested courses to be taken at Stevens Institute of Technology (Stevens) for the fourth and fifth years to satisfy B.S. requirements at Seton Hall University and M.S requirements at Stevens. Fifteen credits from the undergraduate curriculum at Stevens can be transferred from Stevens to Seton Hall University.

Plan of Study Grid
Fourth Year
First Semester		Hours
BME 306 Introduction to Biomedical Engineering (required for undergraduate)		3
BME312 Biomaterials (required for undergraduate)		3
BME313 Biomaterials Lab (required for undergraduate)		1
BME465 Principles of Biomedical Imaging (required for undergraduate)		3
BME 502_A Physiology for Engineers I (required for graduate)		3
	Hours	13
Second Semester
BIO 181 Biology and Biotechnology (required for undergraduate)		3
BME 182 Introductory Biology Lab (required for undergraduate)		1
BME460 Biomedical Digital Signal Process Lab (required for undergraduate)		2
BME 503_A Physiology for Engineers II (required for graduate)		3
BME506_A Biomechanics (required for graduate)		3
	Hours	12
Fifth Year
First Semester
BME507_A Applications of Statistical in Biomedical Engineering and Health Sciences (required for graduate)		3
9 credits (from courses at 500_A or 600 or 700 or 800 or 900 level) (required for graduate)		9
	Hours	12
Second Semester
BME 700 Seminars in BME (required for graduate)		0
9 credits (from courses at 500_A or 600 or 700 or 800 or 900 level) (required for graduate)		9
	Hours	9
	Total Hours	46

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