## Teaching

### Courses Taught as Instructor of Record

• Math 1001: Excursions in Mathematics (Spring 2021)
(sole lecturer; supervised one TA)
• Math 1031: College Algebra (Fall 2018, Spring 2019, Fall 2019)
(course coordinator in Spring/Fall 2019; coordinated up to two other lecturers and seven TAs)

### Courses Taught as TA

• Math 3283W: Sequence, Series, and Foundations: Writing Intensive (Spring 2020, Fall 2020)
• Math 2574H: Honors Linear Algebra and Differential Equations (Spring 2018)
• Math 2573H: Honors Vector Calculus (Fall 2017)
• Math 1272: Calculus II (Spring 2017)
• Math 1271: Calculus I (Fall 2017)

### Other Teaching

In Fall 2017, I taught a class to Minneapolis community members throught the Osher Lifetime Learning Institute (OLLI) titled "Math and Proofs". We learned about basic axioms, proofs, and talked about the limitations of axiomatic systems and what it means for mathematics.

### Awards and Service

I was a reciprient of the University of Minnesota Mathematics Department 2018-19 Outstanding Teaching Assistant Award.

In 2021, I was a reader for an undergraduate Senior Honors Thesis.

In 2021, I was a counselor for the Mathematics Project at Minnesota (MPM), an annual four day workshop for undergraduates at the University of Minnesota who come from underrepresented groups in mathematics.

In 2020 and 2021, I was a facilitator for the teacher training portion of the new graduate student orientation.

From 2018-21, I was a mentor in the UMN Directed Reading Program.

### Teaching Materials

Please feel free to use any of these materials. Some sort of attribution (oral or written) would be appreciated.

My Youtube Channel has all the lecture videos from my Spring 2021 "Excursions in Math" class, as well as some material from older classes.

Here is my College Algebra worksheet for pi day. Students approximate pi in three ways: using the sum-of-squares infinite series (analytic); cutting a circle into wedges, and recombining into a "parallelogram" (geometric); and Buffon's needle problem (probabilistic). The circle wedges method was surprisingly accurate; not so for Buffon's needle.

Here are my slides from the OLLI course referenced above.