Working Out the 鈥橞ugs for a Reimagined Physics Lab

Inexpensive robotic toys called Hexbugs will be used in physics lab experiments this fall.

Instead of learning how to use lasers and other high-tech physics equipment in the lab course that Seeley W. Mudd Professor of Physics Janice Hudgings will teach this fall, students will study the movements of insect-like robotic devices.

Known by the trademark name Hexbugs, they are toys that cost less than $20 for a set of five. But as 麻豆传媒 classes continue online because of the COVID-19 pandemic, students will use the gadgets along with software programs and student-designed boxes to complete experiments remotely for Hudgings鈥 Foundations of Modern Physics lab. That doesn鈥檛 mean the work will be unsophisticated.

鈥淲e鈥檙e going to do statistical mechanics experiments where everybody will have a collection of these Hexbugs that move around more or less randomly, like the molecules in a gas,鈥 Hudgings says. 鈥淵ou could put a moveable wall in the middle of the box and watch the wall move as the molecules/Hexbugs hit it, enabling you to measure the 鈥榞as pressure鈥 exerted by the Hexbugs. Or, the cardboard box might have holes in it, which function as a model for trap sites. Or the box might have a pinch point to model resistance. There are all sorts of different creative things you can do that model physical phenomena.鈥

A bit like a Hexbug running into a wall, Hudgings turned in another direction after the novel coronavirus changed everything last spring.

Even with no more than 24 students in her class, she knew the quantum optics experiments she taught in Millikan鈥檚 underground lab last year wouldn鈥檛 work this fall.

鈥淓ven if we were in person, there鈥檚 no way to socially distance in that lab,鈥 Hudgings says.

So it was that necessity became the mother of pedagogical invention. Like other professors, Hudgings has rethought what and how she teaches. The College鈥檚 department of Information Technology Services (ITS) and the Online Teaching and Learning Committee offer support as professors reimagine their methods.

鈥淭he upending of business-as-usual has also provided an opportunity for creativity,鈥 Hudgings says.

鈥淲hat I eventually came around to thinking about was there鈥檚 a lot of focus in most of the labs I teach on the equipment and how to use the equipment. But when I think about what the possible learning objectives for a science lab are, there are a whole bunch of other learning objectives that have nothing to do with the equipment,鈥 she says. 鈥淔or example, how do you find a research question? How do you design an experiment? How do you analyze the data, and then how do you communicate what you鈥檝e found?鈥

Two physics majors who planned to do on-campus research this summer, Genevieve DiBari 鈥22 and Liliana Valle 鈥22, were instead hired by the department to develop experiments and test software for Hudgings鈥 class.

鈥淲e are redesigning her 101 lab that typically used fairly high-tech equipment and making it into something that students can do at home,鈥 DiBari says. 鈥淧ersonally, I鈥檝e been having a lot of fun with designing these experiments because it does pose a little bit of a challenge, looking at how previous people have set up experiments with more equipment, and then trying to translate it back to something I have just laying around my house. I鈥檝e been using a lot of shoeboxes and these wooden barbecue skewers that I found in my pantry.

鈥淚 think the way we鈥檙e designing the lab, it鈥檚 going to give students a lot of flexibility in terms of how they want to design their experiments and also, as the lab progresses, what they want to do with those experiments.鈥

Beyond the usual lab notebooks, students in Hudgings鈥 class this fall will learn how to communicate what they have learned by writing scholarly articles of the sort published in scientific journals.

鈥淲e鈥檙e going to start by reading the scientific literature together. What ideas did that spark? Can we come up with creative ways to put this together and ask new kinds of questions? And then students, you identified a question you want to ask, how you going to design the experiment?鈥

Each student will write their research paper as a formal scientific manuscript, working with a trained student writing partner.

鈥淭hen they submit them to the editor, which is me,鈥 Hudgings says. 鈥淚 send them out for blind peer review by their fellow students, and then they go through a rewrite process. And I give them, as we do that, samples of my own manuscripts and the comments I鈥檝e gotten back from reviewers, so they can see the style of how to handle all this.鈥

Beyond the students鈥 individual papers, Hudgings says she has something of a pipe dream that would involve about two dozen co-authors.

鈥淚f all goes well, what I would like to do as a class at the end of the semester is actually write it up for real publication,鈥 she says. 鈥淭his work shows that you can do creative, interesting, modern physics with something as simple as these little Hexbugs. I think it would be of interest to the physics community. There are some journals that publish some good pedagogical experiments. Just the experiments in their own rights, doing statistical mechanics with these Hexbugs, will be of interest to people. But I also think of framing it as hey, look, this is what you can do with teaching an upper-level physics lab online.鈥

Hudgings鈥 experimental journey is one professors and students are on together.

鈥淵ou know, online isn鈥檛 what Pomona wants to be,鈥 she says, nodding to the College鈥檚 commitment to small classes and one-on-one interaction with professors. 鈥淏ut both in my own thinking and what I hear repeatedly from my colleagues, this is an opportunity for us to rethink our teaching and be creative and really knuckle down on what exactly are our learning objectives, what鈥檚 most important. And we鈥檙e all going to come out of this stronger teachers in person than we used to be.

鈥淚 think students will find some interesting, thoughtful, creative teaching and learning experiences this fall.鈥

By the way, how did she discover Hexbugs in the first place?

鈥淚 think the first time I saw them was with my kids,鈥 says Hudgings, a parent of two daughters, ages 10 and 13.

That eventually posed another small obstacle.

鈥淚 went to go do my experiment one night and I just could not find one of the Hexbugs. I looked everywhere. I was crawling around on the floor looking for these things. And finally, days later, I was making my daughter鈥檚 bed and I found it inside her bed.

鈥淚鈥檓 like, 鈥榊ou stole my physics experiment!鈥欌