Title: MEng Project Offerings for Spring 2017  
Author: Judy M. Thoroughman Jan 11, 2017
Last Changed by: Judy M. Thoroughman Feb 01, 2017
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Judy M Thoroughman (1)
    Page: M&AE Spring 2017 MEng Orientation
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    Page: M&AE Spring 2017 MEng Orientation
Children (14)
    Page: A tower with which to study the dynamics of rainfall
    Page: Autonomous Artistic Behaviors for RobotArt Competition
    Page: Combustion Dynamics of Transportation Fuel Droplets
    Page: Create an Innovative Modular Robotics Platform Products and an R2-D2 in the Cornell Cup
    Page: Demonstration of inflated DEA actuators through foldable robots
    Page: Design a portable device to measure real-world fuel consumption and CO2 emissions
    Page: Design of a More Energy Efficient Ink Jet Printer
    Page: Develop an organ culture system to investigate the tendon injury and remodeling in vitro
    Page: Flow and wakes in complex terrain
    Page: Smart city sensing network design
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Feb 01, 2017 09:50 Judy M. Thoroughman View Changes
Feb 01, 2017 09:49 Judy M. Thoroughman View Changes
Feb 01, 2017 09:49 Judy M. Thoroughman View Changes
Feb 01, 2017 09:46 Judy M. Thoroughman View Changes
Jan 25, 2017 18:10 Judy M. Thoroughman  
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    https://confluence.cornell.edu/display/%7Ejmt14/Piezo+ather…
    https://confluence.cornell.edu/display/%7Ejmt14/Lucy+3D+QA+…
    https://www.mae.cornell.edu/academics/undergrad/hands-on/re…
    blogs.cornell.edu/teams/
    https://confluence.cornell.edu/display/%7Ejmt14/The+Aircraf…
    https://www.bme.cornell.edu/mengprojects.cfm
    https://confluence.cornell.edu/display/%7Ejmt14/ASML-Super+…
Judy M Thoroughman (27)     Page: Design of a More Energy Efficient Ink Jet Printer
    Page: MEng Project Offering for 2016-17
    Page: Delivery of Injectable Patches for Intervertebral Disc Repair
    Page: Social Robot Companion
    Page: Flow and wakes in complex terrain
    Page: MEng Project Offerings for Spring 2017
    Page: Sustainable Energy Cookstove Modeling and Design
    Page: Wearable Robotic Arm
    Page: A tower with which to study the dynamics of rainfall
    Page: Autonomous Artistic Behaviors for RobotArt Competition
    Page: Hernandez Group
    Page: Dune Field Research
    Page: Methods and Devices for Reshaping Craniofacial Cartilage
    Page: Smart city sensing network design
    Page: Cornell University Sustainable Design
    Page: Wearable and Implantable Sensors for Monitoring of Arthritis Patients
    Page: Demonstration of inflated DEA actuators through foldable robots
    Page: Develop an organ culture system to investigate the tendon injury and remodeling in vitro
    Page: Thermal Decomposition of Organic Liquids in a Self-asembled Reactor
    Page: Thin Walled Carbon Fiber Tubes
    Page: Making extraterrestrial sand dunes in a lab
    Page: Create an Innovative Modular Robotics Platform Products and an R2-D2 in the Cornell Cup
    Page: Design a portable device to measure real-world fuel consumption and CO2 emissions
    Page: Compressible turbulence in a bottle
    Page: Combustion Dynamics of Transportation Fuel Droplets
    Page: TE Robotic Assembly Simulation
    Page: Loading Device to Enable Non-Surgical Study of Post-Traumatic Osteoarthritis in Rodents