Elementary and secondary school students who later want to become scientists and engineers often get hands-on inspiration by using off-the-shelf kits to build and program robots. But so far its been difficult to create robotic projects to foster interest in the wet sciences biology, chemistry and medicine so called because experiments in these field often involve fluids.
Now, Stanford bioengineers and their collaborators have shown how an off-the-shelf kit can be modified to create robotic systems capable of transferring precise amounts of fluids between flasks, test tubes and experimental dishes.
By combining the Lego Mindstorms robotics kit with a cheap and easy-to-find plastic syringe, the researchers created a set of liquid-handling robots that approach the performance of the far more costly automation systems found at universities and biotech labs.
We really want kids to learn by doing, saidIngmar Riedel-Kruse, PhD, assistant professor of bioengineering.
We show that with a few relatively inexpensive parts, a little training and some imagination, students can create their own liquid-handling robots and then run experiments on it so they learn about engineering, coding and the wet sciences at the same time, he added.
A paper describing the workwas published March 21 inPLoS Biology. Riedel-Kruse is the senior author. The lead author is postdoctoral scholar Lukas Gerber.
Robots meet biology
The robots are designed to pipette fluids from and into cuvettes and multiple-well plates types of plastic containers commonly used in laboratories. Depending on the specific design, the robots can handle liquid volumes far smaller than 1 microliter, a droplet about the size of a single coarse grain of salt. Riedel-Kruse believes that these Lego designs might even be useful for specific professional or academic liquid-handling tasks that normally require robots costing many thousands of dollars.
His overarching idea is to enable students to learn the basics of robotics and the wet sciences in an integrated way. Students could learn to collaborate while also developing STEM skills, such as mechanical engineering and computer programming. (STEM stands for science, technology, engineering and mathematics.) They could also gain a deeper appreciation of the value of robots in life sciences experiments.
Riedel-Kruse said he drew inspiration from constructionism, a learning theory that advocates project-based learning in which students make tangible objects and connect different ideas and areas of knowledge and thereby construct mental models to understand the world around them. One of the leading theorists in the field was Seymour Papert, whose seminal 1980 bookMindstormswas the inspiration for the Lego Mindstorms sets.
I saw how students and teachers were already using Lego robotics in and outside school, usually to build and program moving car-type robots, and I was excited by that, he said. But I saw a vacuum for bioengineers like me. I wanted to bring this kind of constructionist, hands-on learning with robots to the life sciences.
Do it yourself
In theirPLoS Biologypaper, the team members offer step-by-step building plans and several fundamental experiments targeted to elementary, middle and high school students. They also offer experiments that students can conduct using common household consumables like food coloring, yeast or sugar. In one experiment, colored liquids with distinct salt concentrations are layered atop one another to teach about liquid density. Other tests measure whether liquids are acids, like vinegar, or bases, like baking soda, or which sugar concentration is best for yeast. Yet another experiment uses color-sensing light meters to align color-coded cuvettes.
The coding aspect of the robot is elementary, Riedel-Kruse said. A simple programming language allows students to place symbols telling the robot what to do: Start. Turn motor on. Do a loop. And so forth. The robots can be programmed and operated in different ways. In some experiments, students push buttons to actuate individual motors. In other experiments, students preprogram all motor actions to watch their experiments executed automatically.
Its kind of easy. Just define a few parameters, and the system works, he said, adding, These robots can support a range of educational experiments, and they provide a bridge between mechanical engineering, programming, life sciences and chemistry. They would be great as part of in-school and after-school STEM programs.
STEM-ready
Riedel-Kruse said these activities meet several important goals for promoting multidisciplinary STEM learning as outlined by the Next Generation Science Standards and other national initiatives. He stressed the cross-disciplinary instruction value that integrates robotics, biology, chemistry, programming and hands-on learning in a single project.
The team has co-developed these activities with high school students and a science teacher, and then tested them with elementary and middle school students over the course of several weeks of instruction. These instructions for the robots are now ready for wider dissemination to an open-access community that can expand upon the plans, capabilities and experiments for this new breed of fluid-handling robots, and they might even be suitable to support certain research applications.
We would love it if more students, do-it-yourself learners, STEM teachers and researchers would embrace this type of work, get excited and then develop additional open-source instructions and lesson plans for others to use, Riedel-Kruse said.
Originally posted here:
Automating Biology Experiments With Legos - R & D Magazine
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