Alex Furman
LAS Distinguished Professor
Associate Head for Instruction (2025-2027)
Associate Head for Instruction (2025-2027)
MSCS (m/c 249)
851 South Morgan Street
Chicago, IL 60607-7045,
USA
Office: 409 SEO
email: furman [at] uic [dot] edu
Fax: ++1 (312) 996-1491
Fall 2025: Math 533 Real Analysis
Spring 2026: Math 535 Complex Analysis
Previously taught:
2024-2025: Sabbatical and Simons Foundation Fellowship
2023-2024: Math 215 (Introduction to Math Reasoning), Math 313 (Analysis I), Math 535 (Complex Analysis)
2022-2023: Math 313 (Analysis I), Math 533 (Real Analysis), Math 569 (Introduction to Ergodic Theory)
2021-2022: Math 320 (Linear Algebra), Math 533 (Real Analysis), Spring 2022: Math 569 (Geometric and Measured Group Theory)
2020-2021: Math 535 (Complex Analysis), Math 330 (Abstract Algebra)
2019-2020: Math 533 (Real Analysis), Math 215 (Introduction to Advanced Mathematics), Math 569 (Introduction to Lie Theory)
2018-2019: Math 313 (Analysis I), Math 533 (Real Analysis), Math 546 (Intro to Ergodic Theory)
2017-2018: Math 215 (Introduction to Math Reasoning), Math 313 (Analysis I), Math 550 (Discrete subgroups of Lie groups)
2016-2017: Math 569 (Introduction to Lie groups and Lie algebras), Math 535 (Complex Analysis)
2015-2016: Math 320 (Linear Algebra), Math 547 (Algebraic Topology I)
2014-2015: Sabbatical and Simons Foundation Fellowship
2013-2014: Math 417 (Complex variables), Math 445 (Introduction to Topology), Math 546 (Ergodic Theory and homogeneous spaces)
2012-2013: Math 533 (Graduate Real Analysis), Math 550 (Lattices in semi-simple Lie groups), Math 330 (Abstract Algebra I)
2011-2012: Math 330 (Abstract Algebra I), Math 181 (Calculus II), Math 313 (Undergraduate Analysis I)
2010-2011: Math 533 (Graduate Real Analysis), Math 569 (Ergodic Theory), Math 535 (Graduate Complex Analysis)
2009-2010: Math 414 (Undergraduate Analysis II), Math 215 (Introduction to Mathematical Reasoning)
2008-2009: Math 533 (Graduate Real Analysis), Math 210 (Calculus III), Math 546 (Amenability, Property (T), Normal Subgroup Theorem)