Conference hotel and travel note

With World Cup visitors crowding New York, hotel rooms are limited.  MoMath strongly recommends booking early.  MoMath has reserved a fully refundable block of rooms at three conveniently located hotels:

• Washington Square Hotel
  103 Waverly Place
  New York, NY 10011
  Available until March 26, 2026
  Travel time to MoMath:
  • 12 minutes via PATH, F, or M trains
  • 14 minutes via M1, M3, or M55 buses
  • 16-minute walk

• Freehand New York
  23 Lexington Ave
  New York, NY 10010
  Available until May 16, 2026
  Travel time to MoMath:
  • 10 minutes via M23+ bus
  • 15-minute walk

Additional hotel options:

• UNTITLED at 3 Freeman Alley Hotel
  3 Freeman Alley
  New York, NY 10002
  Book here
• Library Hotel
  299 Madison Ave, E 41st St
  New York, NY 10017
  Book here
• Pod 39 Hotel
  145 East 39th Street (between 3rd Ave & Lexington Ave)
  New York, NY 10016
  Book here

Aastha Patel – Alice in Calculand

In this imaginative, short book inspired by Alice in Wonderland, Aastha transports readers into “Calculand,” where Alice encounters the Mad Hatter, Cheshire Cat, and a delightfully silly caterpillar.  Along the way, these whimsical characters introduce her to the core ideas of calculus: derivatives, limits, and the chain rule.  With lively illustrations and playful storytelling, the project makes potentially intimidating concepts feel approachable.  The judges admired the ingenuity of blending a beloved literary classic with mathematical ideas to create a welcoming doorway into calculus.
Click here to read Aastha’s book.

Purav Kaneria – The Ballad of the Broken Sum

Purav’s “The Ballad of the Broken Sum” is a poetic yet comical tragedy told from the perspective of the harmonic series itself.  Through verse, the series laments its fate: each term shrinking smaller and smaller, yet the sum forever refusing to settle.  Along the way, Purav weaves in classical proofs—like Oresme’s grouping argument—while capturing the anxiety, persistence, and paradoxical “unharmonic” quality of this famous divergent series.  The work is bold, poignant, and remarkably original, transforming a deep mathematical idea into a human drama.  The judges were struck by its gutsiness, creativity, and emotional resonance, praising it as an unforgettable example of how poetry can illuminate mathematics.
Click here to read Purav’s poem.

Nickita Zhang and Philina Zhang – Derive Me Crazy

Nickita and Philina bring high energy to this original musical performance about derivatives of trigonometric functions.  Playing the keyboard and violin with jaunty flair, they perform a witty, memorable song that recites the often-confusing formulas in a way that’s hard to forget.  The judges praised the musicianship, creativity, and humor of the performance, noting how the catchy tune will help students recall the formulas long after the performance is over.  It’s a joyful example of how music can make learning math both fun and memorable

Click here to watch their video.

Sujal Kharel – Beyond the Curves & Lines: Life Lessons Hidden in Graphs

Sujal’s essay brings a humanistic eye to the graphs of Algebra II and precalculus.  The undulations of a sine wave become metaphors for life’s ups and downs; the shape of a circle mirrors the cyclical nature of life.  By interpreting graphs as echoes of human experience, Sujal invites readers to see familiar xy-plane figures not as abstractions but as reflections of life itself.  The judges admired this poetic interpretation, recognizing its potential to draw new audiences into mathematics by connecting it with emotion and meaning.

Click here to read Sujal’s essay.

Jason Lu – The Great Staircase Showdown!

Jason’s video turns a classic staircase problem into an explanatory tour de force.  With humor, music, and great pacing, he introduces recursion formulas and dynamic programming through the question: how many ways can you climb an eleven-step staircase, if you can hop one, two, or three steps at a time?  The ideas unfold in perfect order—skillful, but never pedantic—and culminate in real-world applications that show the broader reach of these techniques.  The judges admired both the playfulness and the depth of this exceptionally well-crafted entry.
Click here to watch Jason’s video.

Neha Krishnan and Sanvi Krishnan – A Musical Interpretation of the Collatz Conjecture (ft. Collatz the Cat)

In this innovative video, Neha and Sanvi translate the Collatz conjecture into music.  Each number becomes a note on the piano, producing motifs that repeat when different starting numbers converge to the same sequence.  By hearing the conjecture, rather than just reading about it, viewers gain an intuitive grasp of this famously unsolved problem.  The judges praised the creativity, clarity, and interdisciplinary flair of this project, highlighting how human sensitivity to sound can reveal hidden patterns in mathematics.
Click here to watch their video.

Frida Greene – The Garden Ratio: Why Plants Grow the Way They Do

Inspired by the work of Vi Hart, Frida’s video explores why plants follow Fibonacci patterns.  With a spirit of curiosity and wonder, she guides the viewer into the mathematics of phyllotaxis, the arrangement of leaves and seeds in plants.  The explanations are pleasant and accessible, showing how the golden ratio and Fibonacci numbers appear in the natural world.  The judges appreciated the enthusiasm and clarity of this project, as well as its ability to connect abstract mathematics to the beauty of everyday life.
Click here to watch Frida’s video.

Salma Aouissi – The Wason Selection Task

Salma’s project uses a crisp, clever cartoon to illuminate one of the most famous problems in logic: the Wason Selection Task.  By tying the puzzle to the idea of the contrapositive, she makes the underlying reasoning clear and accessible.  The accompanying essay reinforced the lesson and framed the problem thoughtfully.  While the cartoon’s style is simple, the communication is strong—conveying a subtle concept with admirable directness.  The judges were impressed by this inventive approach to a classic puzzle in logic.
Click here to read Salma’s comic.

Grace Zhang – Knot Theory Theater Presents: The Tricolorable Case

Grace’s video turns knot theory into a detective story, bringing abstract mathematics vividly to life.  At the heart of the mystery lies the concept of tricolorability—an invariant that distinguishes different knots.  With delightful clarity, Grace compares invariants to features of a person that remain unchanged despite changes in fashion or hairstyle, making a subtle concept instantly accessible.  The judges loved the originality, charm, and concision of this entry, applauding its playful tone and lucid explanations as hallmarks of outstanding communication.
Click here to watch Grace’s video.

Chloe Leshnower – How Mathematics Painted White Noise Pink

In this lively and inventive video, Chloe explains how mathematics transforms the apparent randomness of white noise into the more soothing pink noise.  With clarity and humor, she ties the mathematics to real-world experiences teenagers care about—like how to get a better night’s sleep.  The judges praised the strong explanatory thread, the use of props and scene changes, and the knack for making a non-standard topic both engaging and understandable.  This was a polished, playful, and memorable exploration of math in everyday life.
Click here to watch Chloe’s video.

Samuel Scheinblum — The Life of X

Samuel’s project combines poetry and visual design into a meditation on the experience of solving for x.  The poem traces the arc of effort and understanding, from the blur of confusion to the moment when “the blur becomes a story.”  The judges admired the integration of words, shape, and mathematical insight, all working together to convey what it feels like to wrestle with a problem until clarity dawns.  Deeply original and beautifully expressed, this entry resonated as both art and math communication, earning its place as a standout winner.

Click here to read Samuel’s poem.

Given a bunch of smaller shapes, what larger shapes can they form?  This is a fundamental tiling problem, which has many intriguing variations including packing and covering.  The commercial Eternity tiling puzzles have even offered millions of dollars to the first solver; while the first prize was claimed, the second puzzle has never been solved.  I’ll describe several mathematical results about packing and tiling, including computational intractability results that explain why they’re so hard (and perhaps why they’re so intriguing).  Our latest result in this area is that tiling the plane with just three polygons cannot be solved by any computer algorithm in finite time.  Packing and tiling also have surprising applications to computational origami design and polyhedron unfolding.   I’ll also describe some other fun ways to make artistic patterns of shapes, including Voronoi diagrams and QR codes.

There are many shapes in math that can serve as a point of inspiration.

The majority of my work stems around being inspired by some mathematical concept, using that concept to design origami, then applying that origami design to fashion.  A lot of this work is done by designing things very precisely, coding to do all the relevant calculations and generate the crease pattern, which is then scored before it can be folded, and would be essentially impossible to fold purely by hand using only reference folds.

Humans have shapes, and fashion is just art that can fit around a human shape.  Take a deep dive behind the scenes into the fabrication of some of the works featured in the Antiprisms exhibition.

As mathematics (and art) is a human endeavor, the shape of our well being also shapes the work we are able to create.  The type of work I’m able to create when I’m doing well versus when I’m in distress looks very different.  When I don’t have access to my usual equipment and tools, the nature of my design changes to what can be folded purely by hand, usually involving bisections and binary divisions instead of calculated irrational ratios.

As phones absorb more of our attention and generative AI supplies instant answers, what might we miss?  This talk invites us to pause, look up, and notice the beauty of mathematics all around us.  Together we will explore the symmetries in everyday shapes and patterns through the lens of group theory.  Although group theory is often introduced only in advanced courses, its core ideas can be conveyed visually and enjoyed by learners at any level.  Using puzzles drawn from a coloring book on group theory, Alex Berke will share how both analog and digital media can democratize access to “higher‑level math.”

What is the most efficient way to pack spheres into a container?  How about circles, pentagons, or heptagons?  Some shapes fill space efficiently — cubes leave no gaps — while others stubbornly waste room.  Which shapes pack best, and which are the worst offenders?  This talk explores the mathematics of packing problems, tracing classic results and current insights that reveal how much empty space different shapes inevitably leave behind.

MoMath participates in the ASTC Passport Program.  Please note that both the other museum and your place of residence must be at least 90 miles away from MoMath for the deal to be valid.

Thomas Li, Skateboarding in 4 Dimensions

The judges are excited to recognize the video, “Skateboarding in 4 Dimensions,” by Thomas Li from Clarksville, MD, for its originality in making the connection between skateboarding and rotations in three dimensions. The video is passionate and fun, and the judges loved its playfulness. The skewering of the apple and Thomas’s genuine enthusiasm—conveying his belief that quaternion multiplication is cool—added to the video’s charm. This engaging and educational video stands out for its creativity and the enthusiasm it brings to learning and applying complex mathematical concepts.

Click here to watch Thomas’s video.

Aria Makhija and Oma Makhija, PRIMES Card Game

The judges are thrilled to recognize “PRIMES Card Game,” by Aria and Oma Makhija from Florham Park, NJ, for its elegant and original design, presenting a challenging yet accessible experience for players of all ages. The game involves using four given numbers and the basic operations of arithmetic (addition, subtraction, multiplication, division) to make a target prime number at the center of the card, encouraging players to find multiple solutions when possible. This engaging game can be played solo or with multiple players, providing excellent practice in mental arithmetic and fostering an appreciation for the properties of prime numbers. The card design is particularly commendable, offering clear instructions and examples that enhance gameplay. The accompanying video is both fun and informative, brimming with great energy. PRIMES Card Game stands out not only for its simplicity but also for its ability to engage and entertain children and adults alike.

Click here to watch their video.

Sohil Rathi, Mastering AMC 8 – Recursion

Sohil Rathi created a comprehensive prep text for students interested in the American Mathematics Competition. This hybrid book, featuring both text and videos, serves as a valuable resource for aspiring competitors. In particular, the judges were intrigued by a collection of problems about recursion formulas, including a nifty stair-climbing problem related to the Virankha-Fibonacci numbers. With accompanying video solutions, as well as helpful pointers and strategies, this collection is sure to benefit students seeking to excel in the AMC competitions.

Click here to view Sohil’s writing.

Parth Patel, Orthogonal Friends 

In this captivating expository paper, Parth Patel’s novel concept of on “Orthogonal Friends” emerges from his initial misunderstanding of a calculus lesson on orthogonal trajectories. The paper not only demonstrates a clear understanding of the mathematical concepts but also successfully conveys the broader point that mistakes can be remarkably fruitful, and that mathematics is a realm of endless exploration and discovery. This paper was a joy to read!

Click here to view Parth’s paper.

Rohan Mehta, The Attention Mechanism Demystified 

Rohan Mehta’s attempt to explain the mathematical underpinnings of transformers, such as ChatGPT, demonstrates a deep understanding of advanced mathematical concepts. Despite the complexity of the topic, Rohan’s explanations are clear and provide intuitive understanding. The writing style showcases a remarkable level of grace, confidence, and sophistication, leaving the judges astonished that this work was produced by a high school student.

Click here to view Rohan’s writing.

Anaya Willabus, cool math is complex/haiku’s beauty is simple/math makes poetry 

In this remarkable exploration of communicating math concepts through the art of haiku, Anaya Willabus offers a new way to entice people to learn about complex mathematical topics. The inclusion of notorious unsolved problems, such as the Collatz conjecture, adds a captivating twist. The judges were particularly impressed by the inventiveness of this endeavor, recognizing its potential as a gateway to bridging the gap between mathematics and poetry and enhancing the public’s engagement with math.

Click here to view Anaya’s poetry.

Zoë Nadal, Zero’s Lament

The judges were delighted by Zoë Nadal’s exceptional performance in the entry “Zero’s Lament.” With witty lyrics, captivating singing, and impressive piano playing, she conveyed the mathematical quirks of zero in a memorably original fashion. Zoë’s musical talent and humor, combined with the video’s educational content, add up to a uniquely entertaining experience.

Click here to watch Zoë’s performance.

Jaemin Kim, Benford’s Law

Immersing viewers in a whimsical cartoon fairy tale, Jaemin Kim tells a tale of a kingdom in financial distress as a narrative device to introduce the statistical regularity known as Benford’s law. This creative video serves as an engaging platform to demonstrate how Benford’s law can be employed as a powerful tool for fraud detection. The judges were struck by the clarity of the explanation, which effectively conveyed the meaning and intuitive understanding behind Benford’s law, and they admired the playful videography and storytelling that brought the concept to life.

Click here to view Jaemin’s video.

Griffin Hon, Principal Component Analysis 

Griffin Hon’s video effectively conveys the key ideas of Principal Component Analysis (PCA), a fundamental tool in linear algebra and data analysis. With a spirit of invention and playfulness, Griffin reveals the hidden geometry underlying PCA. The judges were impressed by the engaging approach taken in the video and commend Griffin’s ability to communicate complex mathematical concepts in an entertaining, down-to-earth fashion.

Click here to see Griffin’s video.

Isabelle Schwartz, COVID American Angels

The judges were deeply moved by the emotional impact and thoughtfulness in “COVID American Angels.” This poignant piece delves into the overwhelming reality of the unfathomable 200,000 deaths caused by COVID, employing a powerful symbol—the American flag—to represent each life lost. Through this visual representation, Isabelle Schwartz explores the profound challenge of visualizing such vast numbers and implores us to connect with each human life beyond mere statistics. “COVID American Angels” stirs our emotions and provokes reflection. The judges applaud her for tackling such a challenging subject matter with grace and sensitivity, creating a stunning piece of art that leaves a lasting impression.

Click here to view Isabelle’s art.

Akilan Sankaran, Exploring and Explaining the Elegance of Mathematics through Twitter

The judges were enthralled by Akilan Sankaran’s exceptional teaching and warm demeanor in the writing entry entitled “Math on Twitter.” With clarity and expertise, he presents the “éclair puzzle,” related to Fibonacci-Virankha numbers, and uses this puzzle to illustrate problem-solving strategies more generally. His post on Eulerian circuits offers clear graphs, historical insights, and optional proofs.  Akilan’s skill at blending theory, history, and education truly create an engaging and unique Twitter experience.  The judges commend Akilan for his stellar ability to teach complex mathematical ideas with clarity and enthusiasm, making the journey through mathematical concepts both enjoyable and satisfying, all while fostering a dedication to an inclusive and welcoming learning space.

Click here to view Akilan’s Twitter stream.

Alex Rosenzweig, “The Face Field”

While taking a course in multivariable calculus, Alex Rosenzweig became fascinated by the concepts of gradients and vector fields.  Struck by the use of the same word — “gradient” — in art, he composed this watercolor painting to illustrate the mathematical meaning of gradients and vector fields in this innovative, three-dimensional series of self-portraits.  The image charmed the judges mathematically and pedagogically, as well as artistically.

Click here to view the painting.

Wyeth Renwick, a proof of the function me

Wyeth Renwick’s poem is intriguingly ambiguous and open to interpretation: some of the judges read it as a love poem that winks at the reader with its use of mathematical concepts and language, while others saw it as a poetic animation of a human relationship, viewed as the graph of a function.  Either way, it makes math and poetry both seem more accessible to students who might otherwise not be drawn to these subjects. 

Click here to read the poem.

Kareem Jaber, The Unsolvable Configuration of the 15 Puzzle and an Interesting Approach to Abstract Algebra

In Kareem Jaber’s essay on the 15 puzzle, the exposition builds from the concrete to the general, and gently walks the reader through this classic puzzle as well as through problem-solving techniques more broadly. By the end, it becomes clear that this puzzle is actually a case study in group theory about permutations. The judges felt that Kareem’s entry was particularly suitable for students with a serious interest in mathematics. 

Click here to read the essay.

Arushee Jha, Round Königsberg

Arushee Jha’s website, “Round Königsberg,” is dedicated to combinatorics and is enlivened by Arushee’s colorful original drawings.  Viewers will be drawn in by the website’s exposition of such engaging topics as the seven bridges of Königsberg (a seminal problem in the development of graph theory) and the history and reasoning behind magic squares.

Click here to visit the website.

Adam Dhalla, Mathematics and Artificial Intelligence: Selected Writings

In this impressive collection of videotaped lectures about the math of neural networks, deep learning, and artificial intelligence, Adam Dhalla keeps it old school, standing in front of a whiteboard and using colored markers, but he modernizes the classic style by providing useful timestamps in the video description. The judges also admired his stage presence, his clear voice, and the production quality of the videos. 

Click here to visit Adam’s site

Thais Estrada-Nuñez, Universal Math

In this elegantly brief poem, Thais Estrada-Nuñez starts from “One seed plus one seed is two seeds,” and soon we’re taking flight (and the layout of the poem itself looks like it’s taking flight on the page). The overall effect is stylish, with hints of subtlety and depth.

Click here to read the poem.

Raunak Banerjee, PCA Made Easy

Using shadows of an airplane as an example, Raunak Banerjee’s illustrated essay offers a welcome introduction to principal component analysis, a dimension reduction technique in data science, and then deciphers the jargon that often clouds the understanding of this statistical technique.  

Click here to read his essay.

Angela Wu, The Special Parallelograms

Angela Wu earned honorable mention for her suspenseful movie trailer about special parallelograms: rectangles, rhombuses, and squares. It’s a funny and well-edited video that will have wide appeal.

Click here to watch the video 

Griffin Hon, Random Walks

The judges were bowled over by the energy and sense of humor in Griffin Hon’s entry, “Random Walks”! This video will appeal to kids of all ages, and it does a great job of conveying the excitement, importance, and universality of random walks. The subject of random walks pops up in many parts of mathematics and has applications in fields ranging from finance to physics, all of which were engagingly presented in Griffin’s video.

Click here to watch the video.

Rin Fukuoka, Origametry

In “Origametry,” Rin Fukuoka uses origami to construct regular polygons and also to trisect an angle.  The judges found the video very fresh, playful, and minimal (no words are spoken, and only a few are written). The level of the teaching is especially skillful (for example, note the appropriate pauses in the trisection argument after the rhetorical question “but why?”). At that point and elsewhere, Rin demonstrates great sensitivity to the audience. 

Click here to watch the video 

Helena wrote a “found poem” – a poem where every word (except for “you” and “us”) is from another source, in this case the MathWorld article by Eric Weisstein on “Fundamental Theorems of Calculus.” Helena rearranged the words to create something totally unexpected, an understated little poem that took the judges’ breath away.

Click here to read Helena’s poem.

Cole’s project was an essay about “a disconnect between the way math is typically portrayed and the way that it is actually done.” Math textbooks and papers usually try to look flawless, but anyone who does math knows how messy and confused it can be when you’re actually doing it. Cole interviewed several mathematicians about this disconnect and produced a cogent argument that math communication would be more effective if we humanized it by showing our mistakes as well as our insights.

Click here to read Cole’s essay

Alyssa wrote a paper that explains the optimal strategy for tic-tac-toe and also explores variants of the game on a 4×4 grid and in a 3x3x3 cubical lattice in three dimensions. The judges appreciated the clarity and originality of Alyssa’s investigations.

Click here to read Alyssa’s paper.

Jibran has an Instagram site, @creative_math, where he introduces high school students to topics normally reserved for undergraduate math majors. The judges admired the attractiveness of his posts and how skillfully he explains advanced mathematical ideas, always with a friendly voice.

Click here to read Jibran’s posts.

In her project, Madeline uses the musical instrument known as the marimba to demonstrate something profound about music: musical harmony is intimately connected to the ratios of small whole numbers, a discovery that Pythagoras and his followers are said to have made 2500 years ago. The judges were impressed with the clarity and elegance of Madeline’s explanations and demonstrations.

Click here to watch Madeline’s video.

For his project, Ian constructed a song out of the digits of the irrational number known as the golden ratio (also known as the divine proportion because of its beauty). All the judges found the project intriguing as an exploration and thought the song itself was surprisingly pretty.

Click here to listen to Ian’s song.

Madeleine created a portrait of the mathematician Valerie Thomas. The judges were impressed with this project’s inventiveness: it uses nothing but the characters “3D”—artfully placed—to create a powerfully evocative portrait of a mathematician known for her work on 3D satellite imaging.

In this video about a famous theorem in graph theory and topology, Smayan beautifully explains why every planar map can be colored with just four colors, in such a way that neighboring countries always have different colors. The video is gentle and clear, and enlivened by plentiful graphics, neatly synchronized to Smayan’s narration. He gives the viewer helpful intuition about how inequalities (for vertices, edges, and faces of planar graphs) can be used to cut a seemingly infinite problem down to a finite number of cases, which can then be checked by computer. The judges felt that this was a very crisp presentation of a deep result in advanced mathematics, explained in a way that anyone can grasp and enjoy. 

Click here to watch Smayan’s video

Shreya and Amy teamed up to bring a combinatorial identity to life. Using basketball as a mathematical playground, they showed two approaches to calculating how many ways a player could make or miss n shots, and thereby neatly led the viewer through a proof that the sum of the binomial coefficients “n choose k” from k = 0 to n equals 2^n. The video is goofy and fun: Amy writes (and playfully trash-talks) while Shreya shoots and, before you know it, they’ve derived the identity for the sum of the binomial coefficients. The judges enjoyed the simple but clever videography, the banter between the girls, and their neat explanations of the math.  

Click here to watch the video

Catherine’s video was inspired by her struggle to understand why the empty set is a subset of every set. As she wrote in her essay for this contest, “I’ve never been one to accept or memorize a mathematical concept unless it makes complete sense to me, so I decided to go beyond sheer numbers and create an analogy. I realized that the sets on my page could be related to my classes at school. As the elements of a mathematical set are numbers, the elements of a class are students. When some are absent, only a “subset” of the class exists. And when all are absent, a subset of the class still exists since the class period still technically occurs. This analogy wasn’t something I wanted to keep to myself, and so it became the basis of my entry to the Strogatz Prize competition!”

The judges appreciated Catherine’s lucid explanations and accompanying graphics. Set theory is often regarded as one of the most abstract parts of math, but in Catherine’s hands, it becomes tangible and vivid. Her classroom analogy should appeal to any student. Beyond that, Catherine gives the viewer a glimpse of the universality of set theory and a taste of its applications in computer science.

Click here to watch Catherine’s video 

Shirley’s animated video is filled with jokes and pop-culture references, intended to appeal to younger audiences (though the audience of older judges enjoyed it very much too). Her goal, she says in her essay, is to demystify “mathematics with humor, fun animations, and real-world scenarios.” In her video, Shirley illustrates a technique in combinatorics known as Sticks and Stones (or Stars and Bars) by telling a story about Grandpa Bob’s dilemma:  He wants to know how many different ways there are for him to distribute 10 one-dollar bills among his three granddaughters. With excellent pedagogy (including falling into a tempting mathematical trap and then showing how to get out of it), the video shows the viewer how to count all ways Grandpa Bob can solve his problem. The video is fun and fast-paced, but spends just the right amount of time on the harder ideas and leavens them with colorful graphics and word choice. 

Click here to watch Shirley’s video

Julia Schanan’s entry for the Strogatz Prize was a free-verse poem titled “Math Person.” The judges were moved by the poem’s artistry and emotional power, its depth and raw honesty, its brilliant use of language, and its eye for the unexpected but telling detail. “Math Person” conveys – in ways both beautiful and haunting – the isolation Julia felt as one of the only girls in the American Math Competition 10th grade and, more profoundly, the intellectual isolation she still feels every day as someone who loves math deeply yet lacks a friend with whom to share it.

Mom offers to stop by Panera as a treat for all the painful math that I’ve just endured.

Except it wasn’t painful.

I’m someone who sat through the slow-drip of middle school math, bored and daydreaming,

not seeing what it was all for, wishing – but never working up the guts to push – for more.

Not until now.

Now, I don’t want Panera.

I don’t want to be patted on the shoulder and misunderstood.

I want to go back into that auditorium and finish the exam and talk about it all night.

The judges felt that their own words were inadequate to summarize Julia’s achievement in writing “Math Person.” Let us simply say, read her poem and experience it for yourself.

Click here to read Julia’s poems.

Apoorva Panidapu is a 16-year-old mathematics student, artist, and advocate for youth and gender minorities in STEAM. She writes a blog called “Gems in STEM” and frequently posts the essays on Cantor’s Paradise, the #1 math site on Medium.com.  She sees her blog as “a place to learn about math topics in an accessible, light-hearted manner. I assume no more than basic math knowledge and include fun tidbits for learners of all experience levels. For both my own fun and for readers, I weave in pop culture, pick-up lines, and over-the-top stories to let people into the fantastical world of math, and to show them that anyone can enjoy anything.”

The judges were very impressed with Apoorva’s joyful, elegantly written blog posts on a wide range of math topics, from the liar’s paradox and partitions to tessellations and fractals. Combining clear explanations with an appealing layout and well-chosen graphics, Gems in STEM is itself a gem. The judging panel loved the wide range of Apoorva’s blog posts. They touch on history, etymology, and puzzles, and make connections to everything from art and architecture to science and nature. Apoorva’s uplifting message is that math is everywhere and approachable by anyone from any background.

Click here  to read  Apoorva’s posts. 

Jazz saxophonist and mathematician Marcus G. Miller will share a reflection on how math and music can make us whole.

Marcus G. Miller is a musician and mathematician living in New York City.

John Urschel, current MIT math PhD candidate and former NFL pro, shares his favorite logic puzzle.

John Urschel played professional football for the Baltimore Ravens from 2014 to 2017 before retiring to focus on his career in mathematics.  He is currently a PhD candidate at MIT, where he studies spectral graph theory, numerical linear algebra, and machine learning.

The Festival site opens at 1:30 pm EDT (New York).  Enter at any time between 1:30 pm and 2:00 pm to view some favorite MoMath pix from years gone by.  Activities begin promptly at 2:00 pm EDT (New York).

Details TK

Cindy Lawrence is the Executive Director and CEO of the National Museum of Mathematics.

Tim Nissen is the Associate Director of the National Museum of Mathematics.

Cindy Lawrence, MoMath Executive Director, and Tim Nissen, MoMath Associate Director, welcome all to the fifth annual NYC Math Festival, featuring hours of mathematical fun and entertainment.  Join presenters from all over the world to share an afternoon of lively, engaging activities.

James Tanton, Chair of MoMath’s Advisory Council, kicks the Festival off by sharing the highly intriguing “International Math Salute.”  Can you figure out how it works?

See our selection of Geometiles® and browse for books by Festival presenters Peter Winkler and Art Benjamin.

A MoMath retail specialist will be on hand to answer questions and offer expert shopping advice for all your mathematical gift needs.

Stop by to view a selection of Rubik’s Cubes, browse for Christopher Danielson’s delightful books, Which One Doesn’t Belong? and How Many?, and learn more about the film The Man Who Knew Infinity, for which Manjul Bhargava served as technical advisor to ensure the accuracy of the math featured in the film.

A MoMath retail specialist will be on hand to answer questions and offer expert shopping advice for all your mathematical gift needs.

Check out MoMath’s selection of colorful origami paper, Karl Schaffer’s book Math Dance, and other great items from Additions, the online shop at MoMath.

A MoMath retail specialist will be on hand to answer questions and offer expert shopping advice for all your mathematical gift needs.

Bring along something bendy — a tie, a shoelace, a piece of string — and let’s have fun exploring some of the curious mathematics of folding.

Materials needed:

• Something bendy, such as a tie, shoelace, or piece of string

James Tanton is a global educator, math popularizer, and mathematician.

Dr. Arthur Benjamin will amaze you with some mathematical magic, and then teach you how to do it.  Bring a calculator!

Materials needed:

• Calculator

Art Benjamin is an award-winning popular entertainer, mathemagician, and math professor at Harvey Mudd College.

Join us online for a math-and-paper engineering adventure!  Godwyn Morris, Director of Dazzling Discoveries STEM Education Center, will demonstrate some Engineering with Paper challenges.  Together we will explore proportion, ratio, and scale as Godwyn shows you how to create structures, furniture, and characters from simple supplies.

Materials needed: 

• Printer paper
• Tape
• Scissors

Godwyn Morris is the Director of Dazzling Discoveries STEM Education Center.

Let’s discover the magic of Euler’s Polyhedral Formula while creating structures out of toothpicks and marshmallows.

Materials needed:

• 1 box of traditional rounded toothpicks with points at both ends
• 1 bag of mini marshmallows
• Paper
• Pencil

Bruce Bayly is a math professor at the University of Arizona and bus driver for the Arizona Mathematics Road Show.

Symmetry is all around us.  We see symmetry in our bodies, car wheels, fences, fabric patterns, the MoMath logo, and many other objects!  We will learn about different types of symmetry and have fun creating symmetric art using common objects.

David Reimann is an Albion College math and computer science professor and artist who uses symmetry in his work.

Come and enjoy some non-competitive explorations in mathematics.

Mark Saul is the Senior Scientist at the Julia Robinson Mathematics Festival.

If repeated flips of a coin determined which step you took, would you get anywhere?  Step right in (bring your own coin) and find out!

Materials needed:

• 1 coin
• Paper
• Pencil

Ralph Pantozzi is the winner of the 2014 Rosenthal Prize and a Presidential Awardee in math teaching.

Turn two pieces of heavy paper and some tape into a spinning top, and explore the geometry behind it!  Join Yana Mohanty, Ph.D., a mathematician and inventor of Geometiles®, as she guides you through this fun STEM activity.  You will be provided with a printable template and shown how to transform it into your spinner.  Once you master the simple construction, you may decorate your spinner with your own design.

Materials needed (metric equivalents in brackets):

• 2 sheets of 8.5” x 11” (size A4) card stock paper, ideally in 2 different colors; manila folders cut to 8.5” x 11” will also work
• Scissors
• Tape
• Optional: This project can also be built from Geometiles® Mini Set 2, available from Additions, the online shop at MoMath.

Yana Mohanty is a math educator, mathematician, and the creator of Geometiles®.

Join Mr. A. as he shares one of his many Math Raps, discusses how he got started rapping about math, and takes you through some of the mathematical ideas and references in the rap.

Mike Andrejkovics is a high school math teacher from Long Island, NY who creates and performs raps about mathematics based on popular hip-hop tracks.

Educator and entertainer John Chase will show you the powerful connections between mathematics and juggling.  Math modeling has given jugglers all kinds of new patterns to juggle, and we invite you to come see what mathematics can do.  Bring three juggling objects so you can join the fun!

Materials needed:

• 3 juggling objects

John Chase is a mathematical juggler and math educator.

Is an elevator a vehicle?  Is a hot dog a sandwich?  Is a heart a shape?  Is an emoji a word?  The answers to these questions depend on your definitions of vehicle, sandwich, shape, and word.  Precise definitions are essential tools of mathematics, but few definitions start out as precise as they’ll need to be later on.  Come play with the boundary between precision and ambiguity in this fast-paced participatory session.

Christopher Danielson is an award-winning author and math educator.

Watch as Lauren Rose builds a Rubik’s Cube mosaic, and try to figure out what the picture will be.  Math meets art in this creative application of the popular Rubik’s Cube.

Lauren Rose is a mathematician and math professor at Bard College.

Daniel Rose-Levine will demonstrate how he solves the Rubik’s Cube with his feet in under 20 seconds.

Daniel Rose-Levine is the former Rubik’s-Cube-with-feet world record holder.

Manjul Bhargava will demonstrate an interactive magic trick that exhibits how one can create surprising complexity from extreme simplicity.  Viewers are encouraged to participate from home!

Materials needed:

• 4 playing cards

Manjul Bhargava is the MoMath Inaugural Distinguished Visiting Professor for the Public Dissemination of Mathematics, math professor at Princeton University, and Fields Medalist.

Origami expert Wendy Zeichner will teach one or two origami action models that will be folded from regular printer paper.  There’s math in every fold!

Materials needed:

• Several sheets of 8.5″ x 11″ printer paper
• Pen or pencil
• Scissors

Wendy Zeichner is an origami expert and president of OrigamiUSA.

How can the invisible world of mime explore mathematical ideas?  Join Tim Chartier as he uses mime to investigate weight, magnitude of force, and projective motion with the art of mime.  You’ll also learn how to make an infinite chocolate bar.  (The candy bar is a real prop but eating is pantomimed so enjoyment is calorie-free.)

Tim Chartier is a mathematical mime performer and math professor at Davidson College.  He has performed throughout the world and has been trained in several mime schools, including master classes with the legendary Marcel Marceau.

Yana Mohanty is a math educator, mathematician, and the creator of Geometiles®.

Tim Chartier is a mathematical mime performer, math professor at Davidson College.

Ralph Pantozzi is the winner of the 2014 Rosenthal Prize and a math educator.

Origami expert Wendy Zeichner is the Executive Director of Origami USA.

Mike Andrejkovics is a high school math teacher from Long Island, NY who creates and performs raps about mathematics based on popular hip-hop tracks.

Mark Saul is the Executive Director of the Julia Robinson Mathematics Festival.

Manjul Bhargava is the MoMath Inaugural Distinguished Visiting Professor for the Public Dissemination of Mathematics, math professor at Princeton University, and Fields Medalist.

Lauren Rose is a dancer, choreographer, mathematician, and math professor at De Anza College.

John Chase is a mathematical juggler and math educator.

James Tanton is a global educator, math popularizer, and research mathematician.

Godwyn Morris is the Director of Dazzling Discoveries STEM Education Center.

David Reimann is an Albion College math and computer science professor and artist who uses symmetry in his work.

Daniel Rose-Levine is the former Rubik’s-cube-with-feet world record holder.

Christopher Danielson is an award-winning author and math educator.

Bruce Bayly is a singer, violinist, and math professor at the University of Arizona.

Art Benjamin is an award-winning popular entertainer, mathemagician, and math professor at Harvey Mudd College.

Alex Kontorovich is MoMath Dean of Academic Content and math professor at Rutgers.

What can the fluidity of topology and knots have to do with the rigidity of operations on fractions?  Join Alex Kontorovich to learn the fascinating connection discovered by the late mathematician John Conway.

Materials needed:

• 2 strings of different colors (wires or shoelaces are also okay)
• Surface to lay the strings on (e.g. floor or table is fine)
• Optional materials: paper and pencil

Alex Kontorovich is MoMath Dean of Academic Content and math professor at Rutgers.

Karl Schaffer is a dancer, choreographer, mathematician, and math professor at De Anza College.

Join Karl Schaffer as we play with several surprising ways of moving our limbs in circles.  Apply these actions to create movement sequences with the ultimate mathematical prop — an ordinary sheet of paper.  Then, learn how it connects to the curious algebra of quaternions!

Materials needed:

• Several sheets of 8.5″ by 11″ printer paper
• 5′ by 5′ area in which to move (non-carpeted area preferred)

Karl Schaffer is a dancer, choreographer, mathematician, and math professor at De Anza College.

Peter Winkler is the MoMath Current Distinguished Visiting Professor for the Public Dissemination of Mathematics.

When visiting MoMath, the late, great John Horton Conway impressed people by instantly telling them the day of the week that any given date fell on or will fall on.  And you can do it too!  What date of the week will your birthday fall on next year?  Or your anniversary?  Or favorite holiday?  When’s the next Friday the 13th?  What day of the week were you born on?  Tune in for a presentation by MoMath Puzzle Master Peter Winkler on the marvelous “Doomsday rule.”  It’s easy and fun, and with a little practice you’ll be able to duplicate Conway’s feat.  It’s a great trick, and it’s cleverly designed so that you can remember it and wheel it out whenever it’s needed.

Materials needed:

• Paper
• Pencil

Peter Winkler is the current MoMath Distinguished Chair for the Public Dissemination of Mathematics and Professor of Mathematics and Computer Science at Dartmouth College.

Steve Sherman is the Chief Imagination Officer and Executive Daydreamer, Living Maths.

Get ready to take part in a whacky and zany brainteaser Kahoot with Steve Sherman.  This is a quiz that will tickle your brain-strings and challenge your thinking skills.  Some of the brainteasers will be easy while others will make you think.  Do you have what it takes to be our brainteaser champion?

Materials needed:

• Smart phone, tablet, or personal computer with internet access

Steve Sherman is the Chief Imagination Officer and Executive Daydreamer of Living Maths.

Centreville, VA

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Livingston, NJ

“The purpose of Math Musings, the magazine I started in high school,” wrote Rohan Jha,  “was to show that math is everywhere, yet many times we are not aware of it.  It is behind some of the music we play, or how nature uses it for its own optimal benefit, or it could be behind a fancy card trick, or math could help us reduce the ubiquitously observed annoyance of traffic jams during peak hours.”  The magazine tries to humanize and enliven math in various ways: by telling anecdotes about famous mathematicians; by challenging fellow students with fun puzzles; or by leading them some deeper ideas, such as a lily pad puzzle that leads to the notion of backward recursion in finance.  With clear illustrations and step-by-step instructions for magic tricks and other activities, Rohan attempts to make math fun for everyone… and succeeds admirably.

Coronado, CA

The project submitted by Kyna Airriess is a “zine” based on a quote from A Mathematician’s Lament, a polemical essay by high school teacher Paul Lockhart.  “There is nothing as dreamy and poetic, as radical, subversive, and psychedelic, as mathematics,” wrote Lockhart.  Reading Lockhart’s essay, says Kyna,  “contributed to my own conversion from ardent math-hater to aspiring mathematician; I’d never heard someone describe math, the subject of unfeeling calculations, with words like ‘poetic’ and ‘radical.’  It was a long time before I began to see these traits for myself, but today I self-identify as a math nerd, and I want to study math in college.”

In the zine, each of Lockhart’s memorable adjectives—dreamy, poetic, subversive, and psychedelic—is illustrated and connected to math ideas, using symbols, history, color, and imagery.  The judges were impressed by the passionate energy conveyed by the zine’s words and design.  The overall effect achieves what Kyna intended:  to embody “what those of us who love math want the world to understand. It isn’t about cold calculations at all— it’s a field full of creativity and beauty, and it is just as infused with humanity as any other.”

 New York, NY

“Limericks and poetry are not a typical way to convey information about math,” admits Sarah Thau, “but I think it makes it more palatable than learning functions by rote.  Who doesn’t love a limerick?”  So Sarah created a series of short rhyming poems to list some basic properties of linear, quadratic, trigonometric, polynomial, rational, and other types of functions encountered in algebra and precalculus, and illustrated the pages with examples.

The judges were tickled by the playfulness of this entry.  Limericks are a lighthearted form of poetry in which creativity comes from working within constraints and overcoming them delightfully—and much the same can be said of math!  Indeed, as Sarah wrote, “I love math and am always trying to solve problems but this was a new type of problem to tackle.  One that didn’t need any algebra or modeling.  Each poem became a problem to solve as I tried to figure out words to make each function type’s properties rhyme neatly.”  The poems illuminate the distinctive properties of the various kinds of functions, and draw readers in through a unique, creative, and memorable way of communicating mathematical ideas.

Honolulu, HI

Jonah Yoshida’s project is a pencil-and-paper infographic on graph theory.  He says “I conceived of the idea when reading about how Arthur Cayley used trees to represent structures of hydrocarbons with n carbon atoms and 2n+2 hydrogen atoms.  The entire structure imitates one of these hydrocarbons, ethane (n=2), and a unique application of graph theory is included inside each atom.  I divided the page into two sections so that the hydrogens bonded to the left carbon contain puzzles and fun applications of graph theory, while the ones bonded to the right hydrogen focus more on direct applications, much like our brains’ left and right hemispheres.”  For example, the Four Color Theorem (a fun application of graph theory to coloring maps and an longstanding research question) appears on the left, while the right side includes applications of graphs to computer science (neural networks and spanning trees) and electrical engineering (circuit diagrams).

The judges appreciated the ingenious design concept of this graphic, which underscores the  universality and interdisciplinary spirit of graph theory.  The words and imagery combine history, math, chemistry, and psychology, and the questions in the small text boxes invite the reader to do some research of their own.

Toronto, ON

“My math communication project, Infinity Universe,” wrote Yvonne Hong,  “is an illustrative yet mathematical depiction of the world in which we live.  Every inanimate object illustrated represents a simple, yet ubiquitous concept in math: upon closer inspection, the monochromatic tree is a fractal Pythagoras tree, the galaxy in the background is constructed using the Fibonacci sequence, and the planet and comet are both different variations of the Apollonian gasket.  Infinity Universe promotes the universality of math communication through an abstraction of objects and phenomena that people all around our world are familiar with.”

Carefully executed with great attention to detail, the painting submitted by Yvonne drew the judges in with its vibrant colors and hypnotic patterns.  Moreover, the theme of infinity pervades the painting, just as it does in all of mathematics.  But here, the suggestion of the infinite is magical and otherworldly rather than scientific and literal, and so may appeal to audiences not normally attracted to math.

New York, NY

Zoe Markman created a visual proof of the “sum of squares formula” by cleverly using three wooden 3-D pyramids that fit together.  Each pyramid consisted of a total of 1² + 2² + … + n² identical wooden cubes; thus, its volume visually represented the sum of the squares of all the whole numbers from 1 to n.  To find a formula for this sum of squares, Zoe manipulated and rearranged the three pyramids to form a rectangular prism, whose volume could then be easily calculated to obtain the desired formula for the sum of squares.

The judges agreed with Zoe that this sort of visual, hands-on manipulative “provides a deeper understanding of math than that provided by a written project.  Since you can observe, hold, and manipulate the pyramids (even more so in person), the audience is able to understand why the formula works rather than just taking it at face value and accepting that it was true arbitrarily.  Second, the presentation could be understood even by people without a significant knowledge of math.  It put what looks like an intimidating problem in terms that are easily digestible.”  Zoe even tested the presentation on friends who said they didn’t like math.  That’s a good practice in any form of communication.  Overall, this project is modest but extremely well done and produces a very pleasurable “Aha!” moment for many viewers; indeed, it led one of the judges to understand the “sum of squares formula” in a whole new way!

Santa Monica, CA

To express the universality of math, Katarina Cheng translated it into another universal language: dance. “Just as dance exists as a part of many cultures around the globe to express abstract ideas and emotions through movement, mathematics defies cultural lines to express abstract ideas through structures and forms on the page,” she wrote in her project description. Her video “Dancing the Dihedral Group” sought, through dance, “to represent the visual symmetries, primarily those of a square,” and, through words, “how they translated into algebra, primarily the group D8 .”

The judges commend Katarina for the elegance of her communication in the video. Especially notable was the esthetic of minimalism — in how the video is shot, and the choice of clothing, background, and colors — all of which mesh perfectly with the minimal esthetic of group theory. The integration of the math graphics with the dance moves was also carried out gracefully. Although others in the past have recognized the similarities between math and dance, few have conveyed that analogy with such finesse in the execution. The dancing and music were artfully minimal too. The overall effect is to reinforce the central idea of beauty in simplicity.

Centreville, VA

Hamza Alsamraee loves Instagram – and he also loves math. But when he noticed that very few math pages existed on Instagram, he sought to change that by starting @daily_math, a page dedicated to intriguing problems and ideas about algebra, geometry, calculus, number theory, and other parts of math. “With high-quality educational posts,” he says, “I hoped to build an Instagram community centered around a shared passion for math.”

The judges were impressed with the creativity of Hamza’s entry, expressed through its skillful use of visuals, history, and puzzles, all presented in attractive ways. His explanations of mathematical concepts are clear and insightful, and he is very interactive with his followers, even inviting them to post. The judges also commend him on his growth as a creator and communicator. His Instagram page has evolved from a focus on tricky integrals in the early days to doing more accessible problems now, and the visual presentation has evolved in tandem. With his engaging design choices, which foster clear communication, he is making increasingly good use of the strengths of the Instagram medium.