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University of Toronto | Downtown Toronto University of Toronto Harbord, Ontario | Canada | about 2 months ago
Requisition Title: SIA – JCP221H5S Thermodynamics (Tutorial Leader) Position Type: Tutorial Leader Course Title: JCP221H5S Thermodynamics Course Description:An introduction to equilibrium
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University of Toronto | Downtown Toronto University of Toronto Harbord, Ontario | Canada | about 2 months ago
Principles I Course Description: Matter and its transformations are studied at the macroscopic level. Topics include stoichiometry, phases of matter, equilibria, thermodynamics and electrochemistry. Number
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position, please refer to the job postings list on our website https://www.mcgill.ca/materials/student-positions . Use this application form to apply to any of the positions currently being posted (see the
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on our website https://www.mcgill.ca/materials/student-positions . Positions currently available for the Materials Unit: MIME 209 – Mathematical Applications (1 position at 126 hours) MIME 212
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Introduction to Statistics and Data Science, 180 hours, 1 position BIEN 300, Thermodynamics in Bioengineering, 180 hours, 1 position BIEN 320, Molecular, Cellular and Tissue Biomechanics, 180 hours, 1 position
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. Effective Dates of Appointment: January 05 to April 30, 2026 For information on each position, please refer to the job posting list found on the ECE website at https://www.mcgill.ca/ece/employment/positions
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) // 2 x 100 hrs Chemical Engineering Thermodynamics (CHEE220) // 5 x 100 hrs Resource Recovery and Circular Use (CHEE301) // 1 x 100 hrs & 1 x 50 hrs Physical Chemistry for Engineers (CHEE310) // 4 x 100
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reactor design (fission, fusion, and small modular reactors), transport phenomena in nuclear reactors, thermal hydraulics, molten salt chemistry, thermodynamics, and processing, nuclear chemistry, AI
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modular reactors), transport phenomena in nuclear reactors, thermal hydraulics, molten salt chemistry, thermodynamics, and processing, nuclear chemistry, AI-assisted modeling and simulation of nuclear
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, thermodynamics, advanced separations, integrated chemical process design and optimization, scaling and modularizing chemical processes, and novel energy inputs, with applications in industrial decarbonization, CO2