Eigenvalues and eigenvectors for systems y’ = Ay; diagonalization; linearization; positive definite matrices in Mu’ ‘ + Ku = 0; physical models of oscillation; Fourier series and the FFT; step and delta functions; basic PDE’s; vector spaces and subspaces; networks, incidence matrices, and Kirchhoff’s Laws; graph-based analysis.
Undergraduate Courses
- 30.101 Systems & Control
- 01.400 Capstone 1
- 01.401 Capstone 2
- 03.007 Introduction To Design
- 10.001 Advanced Math I
- 10.002 Physics I
- 10.005 Physics II
- 10.007 Modelling The Systems World
- 30.002 Circuits & Electronics
- 30.102 Electromagnetics & Applications
- 30.110 Digital Systems Laboratory
- 30.113 Design and Fabrication of Microelectromechanical Systems (MEMS)
- 30.001 Structures & Materials
- 30.103 Fluid Mechanics
- 30.007 Engineering Design Innovation
- 30.104 Dynamics
- 30.109 Thermal Systems For Power & Environment
- 30.202 Design of Intelligent Digital Integrated Circuits and Systems
- 30.115 Digital Signal Processing
- 30.119 Intelligent Robotics
- 30.105 Machine Element Design
- 30.200 Micro-Nano Projects Laboratory
- 30.107 Power Electronics
- 30.108 Material Science
- 30.117 Electric Power Systems Analysis and Design
- 30.111 Entrepreneurship
- 01.106 Engineering Management
- 30.203 Topics in Biomedical and Healthcare Engineering
- 30.201 Wireless Communications and Internet of Things
- 30.114 Advanced Feedback and Control
- 30.106 Microelectronics Circuits and Devices
- 01.107 Urban Transportation (ESD)
- 30.118 Optical Engineering & Communications
- 30.123 Healthcare Product Design
- 30.316 Digital Biomimetics: Sustainable Materials and Manufacturing
- 30.120 Design & Manufacturing (01.105)
- 30.303 Industry 4.0 & 3D Printing
- 30.100 Computational and Data-Driven Engineering