Program Overview

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Introduction to Dartmouth Engineering Programs

Dartmouth Engineering offers a range of undergraduate and graduate programs designed to equip students with the knowledge, skills, and expertise needed to succeed in the field of engineering. The programs are tailored to meet the diverse needs of students, from those seeking to pursue a career in engineering to those looking to advance their knowledge and skills in a specific area.

Undergraduate Programs

The undergraduate programs at Dartmouth Engineering include:

• Bachelor of Arts
• Bachelor of Engineering
• Dual-Degree Program

These programs provide students with a comprehensive education in engineering, including coursework, research opportunities, and hands-on experience. The undergraduate experience at Dartmouth Engineering is designed to be engaging, challenging, and supportive, with a range of resources available to students, including:

• BE Student Resources
• Engineering Design
• Financial Aid & Funding
• Life After Dartmouth
• Project Spaces & Labs
• Research & Entrepreneurship
• Student Life & Housing
• Study Abroad

Graduate Programs

The graduate programs at Dartmouth Engineering include:

• Master of Engineering
• Master of Engineering Management
• Master of Science
• Doctor of Philosophy
• PhD Innovation Program
• Online Programs

These programs are designed to provide students with advanced knowledge and skills in a specific area of engineering, as well as the opportunity to conduct original research and contribute to the field. The graduate experience at Dartmouth Engineering is designed to be rigorous, supportive, and flexible, with a range of resources available to students, including:

• Collaborative Programs
• Degree Outcomes
• Engineering Design
• Financial Aid & Funding
• Joint Degrees
• Student Policies & Procedures
• Student Resources

Program Areas

Dartmouth Engineering offers programs in a range of areas, including:

• Biological/Chemical
• Biomedical
• Electrical/Computer
• Energy
• Materials Science
• Mechanical/Operations/Systems

These programs are designed to provide students with a comprehensive education in a specific area of engineering, as well as the opportunity to conduct original research and contribute to the field.

Research

Dartmouth Engineering is committed to advancing the field of engineering through research. The research areas include:

• Biological/Chemical
• Biomedical
• Electrical/Computer
• Energy
• Materials Science
• Mechanical/Operations/Systems

Students have access to a range of resources, including:

• Active Projects
• Collaborative Programs
• Laboratories
• Libraries
• Research News
• Undergraduate Research

Entrepreneurship

Dartmouth Engineering also offers opportunities for students to engage in entrepreneurship, including:

• Startups listed by startup names, faculty founders, and research programs
• Patents listed by patent titles, faculty inventors, and research programs
• Links & Resources, including:
  • Dartmouth NSF I-Corps Program
  • Dartmouth Tech Transfer
  • Entrepreneurship News
  • Magnuson Center for Entrepreneurship
  • Office of Entrepreneurship & Technology Transfer
  • PhD Innovation Program
  • Tuck School of Business

MEng: Energy Engineering

The MEng in Energy Engineering is a graduate program designed to provide students with advanced knowledge and skills in energy engineering. The program consists of nine courses, of which five should be from the list of core courses. The remaining four electives can consist of any graduate-level engineering or science courses at Dartmouth.

Course Requirements

The core courses include:

• ENGS 171: Industrial Ecology
• ENGS 172: Climate Change and Engineering
• ENGG 173: Energy Utilization
• ENGS 174: Energy Conversion
• ENGS 175: Energy Systems

The electives can be chosen from a range of graduate-level engineering or science courses, including:

• Engineering courses, such as:
  • ENGS 91: Numerical Methods in Computation
  • ENGS 103: Operations Research
  • ENGS 104: Optimization Methods for Engineering Applications
  • ENGS 106: Numerical Linear Algebra
  • ENGS 108: Applied Machine Learning
  • ENGS 110: Signal Processing
  • ENGS 114: Networked Multi-Agent Systems
  • ENGS 115: Parallel Computing
  • ENGS 145: Modern Control Theory
  • ENGG 177: Decision-Making under Risk and Uncertainty
  • ENGG 182: Data Analytics
  • ENGG 199.02: Model-Based Systems Engineering, Analysis, and Simulation
  • ENGS 202: Nonlinear Systems
• Science courses, such as:
  • COSC 170: Numerical and Computational Tools for Applied Science
  • COSC 184: Mathematical Optimization and Modeling
  • COSC 271: Numerical Linear Algebra
  • COSC 274: Machine Learning and Statistical Data Analysis

Design Project

Students may take one of the following options to partially fulfill the four-course elective requirement:

• Option 1 (1 course): ENGM 191: Product Design and Development
• Option 2 (2 courses):
  • ENGS 190: Engineering Design and Methodology Project Initiation
  • ENGS 290: Engineering Design Methodology and Project Completion