Mathematical Summer

We all know that this summer was unlike any we had seen before, but at BAMM we found new ways to keep sharing our live for math.

We took our first steps in the virtual world with COSI. BAMM had loved participating in the very first COSI SciFest on 2019, and we were already planning great things for the second edition, so it seemed only natural to try virtualizing at least some of our activities. We ran a short activity consisting on a snail race game and talked about dice and probability. The greatest thing about virtuality, I find, is that it is really easy to record your event and keep it for posterity. So if you missed this our COSI Science Festival event, you can watch it here (as many times as you want!).

That was back in May and we were ready for bigger things. A virtual summer camp? Why not! In 2018, a group of people at the Department of Mathematics had started the summer camp for high school girls that gave birth to BAMM. We couldn’t simply cancel that. Students had been applying since December, we just couldn’t leave them without their dose of summer math fun.

So we ran the summer camp, with no budget since the university was on financial cut, and even made it grow. We opened the camp to include boys and had a high school and a middle school edition.

Because we received way more applications than we could possibly accept, but we didn’t want to leave anyone out, we created a third edition of the camp, opened to anyone interested, including teachers and adults in general. What’s more, all the camp content will remain freely available online for a whole year, so you never go short on math fun. Join here, try the activities at your own pace and earn a badge for each challenge you complete!

Some awesome numbers:

  • 518 applications received
  • 85 high school students and 77 middle schoolers accepted
  • 192 auto-enrolled students for the open version
  • 22 different activities plus 18 project options
  • More than 2000 assignment submissions
  • Thousands of posts on the online platform
  • More than 1500 badges granted
  • 90 certificates of completion issued
  • About 15 hours in Zoom calls
  • 5 organizers/instructors

And 14 amazing volunteers without whom we would have never been able to reach those numbers and so we are forever thankful to them: professors Veronica Ciocanel and Cosmin Roman, undergraduate and graduate students Shreeya Behera, Kacey Clark, Robert Dixon, Nick Geis, KT Goldstein, Torey Hilbert, Peter Huston, Hannah Johnson, Michael Lane, Angela Li, Niko Schonsheck, and Vicki Simmerman.

Our deepest gratitude goes to Tom Evans as well, Manager of Open Learning at ODEE, our Canvas guru, for setting up the online platform for the camp.

Working on that project was a very enriching experience in many ways, and we hope students enjoyed it as much as we at BAMM did.

Our last summer activity was a workshop for teachers, in the context of an Interdisciplinary Professional Development Series, joint work with several OSU units: the Arabidopsis Biological Resource Center, the Byrd Polar and Climate Research Center, the Museum of Biological Diversity, the Arne Slettebak Planetarium, Generation Rx (College of Pharmacy), and BAMM. In the math session, 40 teachers learned an awesome guess-the-number magic trick based on binary numbers and got ideas for how to use it in the classroom.

We are almost like fish in the water in the virtual world now and have great things in store for the Fall. Keep an eye on our calendar to learn about the upcoming events.

BAMM and the AAASCEC

The Department of African American and African Studies has a Community Extension Center (CEC) located on the Near Eastside of Columbus. The CEC strives to provide academic and community education opportunities for its Near Eastside neighbors and the greater Central Ohio community. We were lucky to have come in contact with the AAAS Departament and are now joining their efforts offering math programming at the CEC.

On three consecutive Fridays in February and March, we offered a Mathmagic workshop there. Every session we taught one or two different magic tricks, so people who wanted to come to all would not be seeing repeated content. The workshop was addressed to middle school students, but some parents and other accompanying adults joined to. We were really happy to see adults and children alike very engaged in discovering the math behind the magic tricks.

That is not all, because we will be offering a math exhibit every month on the second Saturday. On those days, which we have called Math Day, from 12:30 to 3 pm everybody is welcomed to stop at the CEC and explore the beauty and richness of mathematics through numerous games, puzzles and crafts.

We also plan to keep on bringing more workshops for the K-12 students in the community, as well as other math programming.

J-term at Metro Middle School

During the first two weeks of school this year, BAMM had the opportunity of participating on the January term at Metro Early College Middle School. The Metro Early College Schools were born out of a partnership between OSU and Battelle to create a STEM school. At Metro Middle School, J term is time that allows for both extension and remediation, all personalized to the needs of each student. Students who master a subject have an opportunity to take an extension class in J-term. We were invited to teach one of these elective extension class for advanced math students.

We chose a different topic for each week and taught a daily period of 1.5 hours. The first week we talked about tesselations. Students started exploring tesselations with regular shapes, first using a single shapes and then mixing them. They also studied tesselations with nonregular triangles and quadrilaterals. We challenged them to find pentagons that could tesselate and were surprised to see them come up with a couple of families of them.

The second week was about Mathmagic, something the students were really looking forward to. Each day, we performed one or two tricks in front of them and then challenged them to unveil the tricks. At first they would always say that the trick was obvious and really easy, but upon trying to perform it themselves, they would realize that it was not as simple as they first thought. However, sometimes with a hint, most of them were eventually able to uncover it.

Through these engaging magic tricks, students practiced or learned mathematics ranging from multiplication tables to topology, passing through algebra and number systems. We very much enjoyed the experience and were amazed at these students ability with math. I wouldn’t be surprised that some of them ended up going for a career in math.

The Mathematics of Origami

Last week, the Department of Mathematics, through the outreach initiative, had a guest for the Recreational Mathematics Seminar. Laura Jimenez is a mathematician and a PhD candidate at the Department of Ecology and Evolutionary Biology at the University of Kansas. In college, she began to develop a passion for origami, and she was able to tie it with mathematics. When she was a master’s student, she worked in mathematical outreach and popularization and gave workshops about the mathematics behind origami.

At the Recreational Mathematics Seminar on Friday, November 15, Laura talked about how not only math is used in proving whether something is foldable or not and finding the folding pattern, but also origami can be a powerful tool for solving mathematical problems, such as solving a third-degree equation.

During the talk, the speaker presented the Huzita axioms, the mathematical principles of paper folding. The axioms lisSecond Huzita axiom shown in paper folding.t the seven operations that can be achieved by folding paper. The first axiom reads “Given two distinct points p1 and p2, there is a unique fold that passes through both of them.” The second one goes about placing a point into another; in this case the fold created turns out to be the perpendicular bisector to the segment joining the two points. Later on, Laura showed how one can trisect an acute angle by folding paper, in other words, by following the Huzita axioms.

The seminar was followed by a workshop where attendants learned how to fold a cube and a 12-pointed star of modular origami. Some would say that this type of origami is the most mathematical one. Modular origami pieces are made up by several sheets of paper. Each sheet is folded in the same manner, creating a unit with flaps and pockets. Then all pieces are put together by inserting flaps into pockets. This type of origami allows us to build geometrical objects such as the platonic solids.

Laura emphasized hUndergraduate student showing the 12-pointed star he folded.ow origami is a great tool for teaching geometry.

On Saturday, our guest also ran our Girls Exploring Math Monthly workshop. Students explored the properties of buckyballs, polyhedra with regular pentagons and hexagons as faces. They analyzed the number of vertices, edges, and faces of each type, and came up with a relation between them. When building the origami model of a dodecahedron, the girls also looked at its graph representation and found a Hamiltonian path on it. Then, they used it to decide how to assemble the origami modules so that all the edges connected in every vertex had different colors (using modules of three different colors – it’s not as easy as you might think!).Young girls working at the Girls Exploring Math origami workshop.

The Recreational Math Seminar is gaining presence within the Department’s community, showing the most entertaining side of math. Recreational Math is a great way of getting undergraduate students interested in research. We will continue to bring more guests next term.

Building Real Mathematical Surfaces

This week, Buckeye Aha! Math Moments had a series of events around the work of a special guest. Maria Garcia Monera, from the University of Valencia (Spain), is interested in Topology and Geometry and in designing and building paper models of surfaces.Graduate student assembling a paper model of an ellipsoid.

Even from last week we started preparing for Maria’s visit. We built some of her models and displayed them in the Mathematics Tower lobby for everybody to see. Then on Monday, Maria gave the Recreational Mathematics Seminar. She explained that he technique she uses is based on the work of Felix Klein, Alexander Von Brill, and John Sharp. In an era before computers, where one could render the surfaces on a screen, the motivation for creating these models was aiding students in the visualization of the mathematical objects. The idea behind is finding plane curves contained on surfaces that can be cut in paper and used to reproduce the model.

The seminar was well attended by postdocs, graduate and undergraduate students, and lecturers, becoming the most popular Recreational Mathematics Seminar so far.

On Tuesday, Maria gave a workshop at the Columbus Public Library (Northside Branch) were some children built an orange paper sphere and decorated it as a pumpkin. Then on Wednesday, during Teas, those who attended the seminar (and a few others) put in practice what they had learned, building paper surfaces such as paraboloids, water drops, ellipsoids, andMetro School class crafting some surface paper models hearts.

Finally, on Thursday Maria worked with a 6th and 7th grade math class at Metro Middle School. She talked about surfaces of revolution and then the children worked in teams to craft spherical pumpkins and hearts.

Recreational Mathematics is about fun and entertainment, but that doesn’t mean there aren’t serious mathematics involved. As the Mathematical Association of America writes “Recreational mathematics is inspired by deep ideas that are hidden in puzzles, games, and other forms of play”. With Maria’s visit, the Department’s community had fun and obtained a tool for helping students visualize surfaces. Hopefully, some were so inspired that they will design their own paper model.

Girls Doing Math

The second session of Girls Exploring Math Monthly took place this last Saturday. This time the attendees explored latin and magic squares. They worked by themselves, challenged each other and naturally ended up working together to solve the problems.

A Latin square is an n by n grid filled with n different colors, each occurring exactly once in each row and exactly once in each column. When counting the number of different 3 by 3 Latin squares, Ella, a 7th grade student, said “If I fix the red, then there are only two possible ways of arranging the other two colors. Since there are 6 different configurations for the red, then there are 12 distinct colorings.”

During lunch, they had fun playing SET. They were competing against each other, but when the group of cards on play was a particularly difficult one, they joined forces. They came up with classification strategies that could help them better tackle the problem.

This event is part of a long term project that includes monthly workshops and a summer camp. The project Girls Exploring Math invites young women to experience mathematics through engaging activities in an nontraditional environment, and seeks to attract women to pursue careers in math.

Anamorphic Art – Mathematics behind the Illusions

On Saturday the Department of Mathematics received a group of female high school students to learn about using math to create anamorphic art. The workshop was taught by Anna Davis, Ph.D., from Ohio Dominican University.Drawing of a cube appears like floating thanks to an anamorphic effect.

The word anamorphosis refers to a distorted projection or drawing which appears normal when viewed from a particular point or with a suitable mirror or lens. Anamorphosis has become increasingly popular in art, especially in street art.

Led by Prof. Davis, students drew anamorphic projections aided by a laser and further explored them using GeoGebra. They also wrote functions to create an anamorphic version of a “normal” drawing. Finally, they had time to create their own anamorphic art.

This event is part of a long term project that includes monthly workshops and a summer camp. The project Girls Exploring Math invites young women to experience mathematics through engaging activities in an untraditional environment, and seeks to attract women to pursue careers in math.