Students
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Creative Writing Club Information Session
November 11, 2025 -
Don’t Wait to Get Help with a Research Assignment
November 11, 2025 -
Community Desk Assistant Role Hiring for Spring 2026
November 11, 2025 -
Celebrate International Education Week 2025 at Illinois Tech
November 11, 2025 -
Communication Courses for International Students
November 06, 2025 -
Presenting Complex Ideas with Clarity and Confidence
November 04, 2025 -
SoReMo Letters of Intent for Spring 2026
October 30, 2025 -
Domestic Violence Awareness Month — Love Is/Isn’t: Understanding Healthy Relationships
October 28, 2025
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Creative Writing Club Information Session
Athletics
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Men’s Varsity Soccer Tryouts
August 18, 2022 -
Women’s Tennis To Hold Tryouts August 20 Through August 26
August 18, 2022 -
Men’s Tennis To Hold Tryouts August 20 Through August 26.
August 18, 2022 -
Men’s Tennis Takes Home 2021 NACC Tournament Title with 5-2 Win Over Concordia (Wis.)
May 11, 2021 -
Illinois Tech Athletics Announces Advisory Board
December 10, 2020
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Men’s Varsity Soccer Tryouts
Research
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Community-Engaged Research Seminar for Health Researchers
November 11, 2025 -
IFSH Releases Annual Report of Research
October 07, 2025 -
Grapeseed Extract (MegaNatural BP) Study at Clinical Nutrition Research Center Seeks Volunteers
September 04, 2025 -
Welcome Week Student Research Showcase Winners
August 21, 2025 -
Participate in a Study on Factors Impacting Student Interest and Career Intentions in the Analytics Domain
August 21, 2025
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Community-Engaged Research Seminar for Health Researchers
Daya Bay Reactor Neutrino Experiment Archive
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Announcing the First Results from Daya Bay: Discovery of a New Kind of Neutrino Transformation
March 8, 2012Multinational Collaboration Includes Faculty and Students at Illinois Institute of Technology. The Daya Bay Reactor Neutrino Experiment, a multinational collaboration operating in the south of China, today reported the first results of its search for the last, most elusive piece of a longstanding puzzle: how is it that neutrinos can appear to vanish as they travel? The surprising answer opens a gateway to a new understanding of fundamental physics and may eventually solve the riddle of why there is far more ordinary matter than antimatter in the universe today.