Skip to Content
Toggle navigation
Home
Browse
Browse by Collection
Browse by Project Center
About
Help
Explore, Discover, Share
Search
Search Constraints
Start Over
Filtering by:
Advisor
Yagoobi, Jamal
Remove constraint Advisor: Yagoobi, Jamal
« Previous |
1
-
10
of
16
|
Next »
Sort by relevance
relevance
date uploaded ▼
date uploaded ▲
date modified ▼
date modified ▲
Number of results to display per page
10 per page
10
per page
20
per page
50
per page
100
per page
View results as:
List
Gallery
Masonry
Slideshow
Search Results
Atmospheric Water Generation
Creator:
Bolsinger, Christopher Chase
and
Ralphs, Spencer Phelan
Advisor:
Yagoobi, Jamal
Publisher:
Worcester Polytechnic Institute
Date Created:
2019-04-24
Resource Type:
Major Qualifying Project
Water Collection
Creator:
Plourde, Andrew R.
Advisor:
Yagoobi, Jamal
Publisher:
Worcester Polytechnic Institute
Date Created:
2020-05-18
Resource Type:
Major Qualifying Project
ELECTROHYDRODYNAMIC CONDUCTION PUMPING IN MICRO-SCALE WITH TWO PHASE FLOW
Creator:
Hossain, Ahmed Safat
and
Khea, Darien Nate
Advisor:
Yagoobi, Jamal
Publisher:
Worcester Polytechnic Institute
Date Created:
2016-03-25
Resource Type:
Major Qualifying Project
ELECTROHYDRODYNAMIC PUMPING PRESSURE GENERATION
Creator:
Talmor, Michal
,
Capriotti, Blair John
, and
Montalvan, Derek Anthony
Advisor:
Yagoobi, Jamal
and
Torres-Jara, Eduardo
Publisher:
Worcester Polytechnic Institute
Date Created:
2013-04-24
Resource Type:
Major Qualifying Project
Experimental Study of Flexible Electrohydrodynamic Conduction Pumping
Creator:
O'Connor, Nathaniel J
,
Christidis, Pavolas Nicholas
, and
Tobar, Nicolas Vayas
Advisor:
Yagoobi, Jamal
Publisher:
Worcester Polytechnic Institute
Date Created:
2018-04-25
Resource Type:
Major Qualifying Project
FLOW DISTRIBUTION CONTROL IN MESO SCALE VIA ELECTROHYDRODYNAMIC CONDUCTION PUMPING
Creator:
Minchev, Kliment Sashev
,
Jiang, Cheng
, and
Shaw, Brandon Charles
Advisor:
Yagoobi, Jamal
Publisher:
Worcester Polytechnic Institute
Date Created:
2015-03-27
Resource Type:
Major Qualifying Project
FLOW DISTRIBUTION CONTROL IN MESO SCALE VIA ELECTROHYDRODYNAMIC CONDUCTION PUMPING
Creator:
Minchev, Kliment Sashev
,
Shaw, Brandon Charles
, and
Jiang, Cheng
Advisor:
Yagoobi, Jamal
Publisher:
Worcester Polytechnic Institute
Date Created:
2015-03-27
Resource Type:
Major Qualifying Project
Flow Distribution Control in Meso Scale via Electrohydrodynamic Conduction Pumping
Creator:
Minchev, Kliment Sashev
,
Shaw, Brandon Charles
, and
Jiang, Cheng
Advisor:
Yagoobi, Jamal
Publisher:
Worcester Polytechnic Institute
Date Created:
2015-03-25
Resource Type:
Major Qualifying Project
Fluid Flow Distribution Control in Micro-Scale with EHD Conduction Pumping Mechanism
Creator:
Kamat, Omesh Keshav
,
Larkin, Thomas Rae
, and
Dancy, Tobin James
Advisor:
Yagoobi, Jamal
Publisher:
Worcester Polytechnic Institute
Date Created:
2016-03-25
Resource Type:
Major Qualifying Project
Next Generation, Smart Fluid Storage Tank for Space and Terrestrial Applications
Creator:
Ouellette, Lily Marie
,
McGuirk, Connor Douglass
, and
Barruetabena, Jon Joseba
Advisor:
Yagoobi, Jamal
Publisher:
Worcester Polytechnic Institute
Date Created:
2017-03-24
Resource Type:
Major Qualifying Project
« Previous
Next »
1
2
Toggle facets
Limit your search
Collections
Major Qualifying Projects
10
PhD Dissertations
4
Interactive Qualifying Projects
2
Year
2013
1
2014
1
2015
6
2016
2
2017
2
more
Years
»
Creator
Barruetabena, Jon Joseba
1
Bolsinger, Christopher Chase
1
Capriotti, Blair John
1
Christidis, Pavolas Nicholas
1
Dancy, Tobin James
1
more
Creators
»
Advisor
Torres-Jara, Eduardo
1
Yagoobi, Jamal
[remove]
16
Contributor
Blandino, John
2
Blandino, John J.
1
Savilonis, Brian J.
3
Sisson, Richard D.
1
Sullivan, John M., Jr.
1
more
Contributors
»
Major
Aerospace Engineering
1
Mechanical Engineering
9
Robotics Engineering
1
Unit
Mechanical Engineering
4
Publisher
Worcester Polytechnic Institute
16
Subject
Energy
1
Environment
2
Industry
2
Infrastructure
1
Well-Being
1
Resource type
Major Qualifying Project
10
Dissertation
4
Interactive Qualifying Project
2
