Our MSE Degrees – Specialize or Explore!

No matter which option you choose for your Master’s Degree (MSE) in Mechanical Engineering at Johns Hopkins – all-course, essay, or co-op essay, you have the option to concentrate your coursework in one or two fields or explore a variety of specializations!

These are many of the topics covered in courses offered by the Department of Mechanical Engineering and the Whiting School of Engineering.

    • Additive Manufacturing
    • Advanced Topics In Microsytem Fabrication
    • Applied Finite Element Analysis
    • Fabricatology – Advanced Materials Processing
    • Kinematics
    • Mechanics of Solids and Materials
    • Microfabrication Laboratory
    • Aerospace Structures and Materials
    • Computational Fluid Dynamics
    • Dynamics of Robots and Spacecraft
    • Fluid Dynamics
    • Fluid Mechanics
    • Hydrodynamic Stability
    • Jet and Rocket Propulsion
    • Mechanics of Flight
    • Space Vehicle Dynamics and Control
    • Turbulence
    • Biomechanics of the Cell
    • Biofluid Mechanics
    • Biophotonics
    • Biosolid Mechanics
    • Cell and Tissue Engineering
    • Experimental Methods in Biomechanics
    • Locomotion – Mechanics and Dynamics
    • Mechanics of the Biological Systems and Biophysical Methodologies
    • Statistical Mechanics in Biological Systems
    • Courses in Machine Learning
    • Numerical Methods
    • Finite Element Methods
    • Computational Fluid Dynamics
    • Applied Finite Element Analysis
    • Simulation and Analysis of Ocean Wave Energy Systems
    • Contemporary Machine Learning for Physicists
    • Convection
    • Design in Alternative Energy
    • Energy Policies and Plan Models
    • Energy Systems Analysis
    • Fluid Mechanics
    • Infrastructure Modeling, Simulation, and Analysis
    • Materials Science of Energy Technologies
    • Photovoltaics and Energy Devices
    • Simulation and Analysis of Ocean Wave Energy Systems
    • Advanced Transport Phenomena
    • Biofluid Mechanics
    • Computational Fluid Dynamics
    • Convection
    • Earth and Planetary Fluids
    • Fluid Dynamics
    • Fluid Mechanics
    • Hydrodynamics Stability
    • Jet and Rocket Propulsion
    • Optical Measurement Techniques
    • Planetary Fluid Dynamics
    • Simulation and Analysis of Ocean Wave Energy Systems
    • Turbulence
    • Water Wave Mechanics
    • Aerospace Structures and Materials
    • Applied Finite Analysis
    • Biosolid Mechanics
    • Deformation Mechanisms
    • Engineering of Small Structures
    • Finite Element Methods
    • Mechanical Props of Materials
    • Mechanics of Advanced Engineering Structures
    • Mechanics of Solids and Materials
    • Plasticity
    • Solid Mechanics for Structures
    • Structure of Materials
    • Biomacromolecules at the Nanoscale
    • Biosensing and BioMEMS
    • Molecular Spectroscopy and Imaging
    • Microfabrication
    • Adaptive Systems and System Identification
    • Advanced Systems Modeling
    • Algorithms for Sensor-Based Robotics
    • Applied Optimal Control
    • Computer Vision
    • Dynamics of Robots and Spacecraft
    • Haptic Interface Design for Human-Robot Interaction
    • Kinematics
    • Linear Dynamical Systems
    • Linear Systems Theory
    • Locomotion: Mechanics and Dynamics
    • Mechatronics
    • Nonlinear Control and Planning in Robotics
    • Robot Devices, Kinematics, Dynamics, and Control
    • Robot Motion Planning
    • Robot Sensors and Actuators
    • Space Vehicle Dynamics and Control

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