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Over the past couple of decades, UT Austin’s College of Education has become a national leader in preparing STEM (science, technology, engineering, math) teachers who can motivate and ignite learning in a wide array of students, including groups that traditionally have avoided or done poorly in STEM courses.

One of the most successful efforts has been STEM education expert Anthony Petrosino’s Beyond Blackboards project, which he developed in partnership with Rich Crawford in UT’s Cockrell School of Engineering and Chandra Muller in the College of Liberal Arts.

Students participate in robotics competitions.

Students participate in robotics competitions.

To boost middle school students’ understanding of all sorts of complex math and science concepts, the National Science Foundation-funded project focuses on something that appeals to a lot of kids: putting together robotic contraptions that look like really cool toys and then seeing if those contraptions work.

A considerable body of research shows that when students are given a chance to be active participants in their learning, do hands-on projects, solve problems on their own or in a group, and work on activities that are clearly tied to real life and seem relevant, they learn more.

Another perk to this teaching approach, which is called project-based or inquiry-based instruction, is that it has been particularly effective with student populations that traditionally have struggled academically, especially in math and science courses.

“Right now, the national dropout rate for Hispanics stands at around 40 percent,” said Petrosino, an associate professor in the Department of Curriculum and Instruction and co-founder of the nationally acclaimed UTeach program. “Many of these students may not perform well on tests, but they have skill sets that allow them to do well in engineering design. The confidence and expertise they gain while they engage in something like engineering design can be a really effective starting point for understanding core math and science subject material.”

According to Petrosino, inquiry-based projects tend to tap into students’ natural motivation and facilitate mastery of advanced scientific concepts like rules of evidence, investigation, and prediction.

“We’re using engineering-based design and robotics competitions and projects to create a context for math and science learning,” said Petrosino. “The high-level skills these projects are building can prepare students for jobs as engineers, certainly, but those same skills can also open the door to a career in medicine, software design, or architecture.”

Students participate in robotics competitions.

Students participate in robotics competitions.

To encourage more students to pursue STEM college majors and career fields, Beyond Blackboards takes a four-pronged approach that includes research-based materials and training for all major stakeholders: students, teachers, school administrators, and parents.

During after-school programs, such as robotics clubs, and at intensive summer camps, students spend lots of time on inquiry-based, open-ended, hands-on learning activities. At the same time, they’re introduced to a wide selection of STEM college options and careers.

Teachers participate in professional development that boosts their engineering knowledge and the level of comfort they have using technology in their classrooms. They’re also taught how to introduce students to engineering, which can include pointing out basic, everyday examples of engineering in real life. This helps students take the topic from the realm of abstract concepts into familiar contexts.

Beyond Blackboards builds support from school counselors and administrators by providing professional development and field trips to local businesses and organizations that offer many kinds of jobs in STEM fields. Teachers outside math and science – career instructors and art teachers, for example – have access to this training as well.

The program also reaches out to parents and caregivers, targeting historically under-represented groups, like African Americans and Hispanics, in order to build understanding about the career options open to students who have math and science skills.

At UT Austin, Beyond Blackboards engages engineering and UTeach students to serve as mentors for middle school students in the program, offering academic support and helping students look ahead to college and beyond.

“Support from multiple sources increases the likelihood of success,” said Petrosino. “University partners like DTEACH are very involved, as well as corporate partners like Skillpoint Alliance, a Central Texas education and workforce agency, and members of communities around the participating schools.

“Research shows that middle school is a critical decision-making time for students, and Beyond Blackboards focuses on engaging people who are in a position to positively influence those students. Really focusing on historically underserved populations, we’re tapping into a large group with a wealth of talent that may previously have gone unnoticed.”

Like robotics, science video games are an innovative, research-proven way to pique middle school students’ interest in science – one that learning technologies expert Min Liu has perfected in the guise of “Alien Rescue.”

It’s hard to deny the power of a good space adventure video game to motivate middle-schoolers,” said Liu, a professor in the Department of Curriculum and Instruction. “What 10- or 11-year old wouldn’t get into traveling through outer space and rescuing aliens?”

Created for sixth grade science students by Liu and her Learning Technologies Program graduate students, the video game “Alien Rescue” places tweens in the role of space scientist.

Children learn to use the scientific procedures that real scientists use, ask the tough questions scientists ask, and research answers to those questions.

As with any good inquiry-based lesson, Alien Rescue is story-driven and tasks students with finding suitable homes in the solar system for six alien species who have lost their home planets and are broadcasting a desperate plea for help to Earth. Each species has very different habitat requirements; if those requirements aren’t met, each student group’s alien will perish.


Watch teachers, students and developers talk about Alien Rescue benefits in the classroom.
 

The 3D online immersive learning environment combines the fantasy element of aliens with the realism of being a young investigator, which research has shown to be a great match for middle school students. Through a discovery approach, the students learn from their mistakes as they play the game, self-correct their errors, and are supported by various tools that are built into the program.

“Alien Rescue is an excellent example of inquiry-based learning,” Liu said, “and the game has been very successful as a teaching and learning tool for all groups, from gifted and talented to at-risk students. According to teachers, students are highly motivated to participate and quickly get into the role of space scientist.”

Since the game feels more like play than schoolwork, it may seed positive attitudes about science that remain through high school and college.

Alien Rescue has become so popular that it’s now part of the science curriculum in 30 states as well as Australia, China, Canada, and South Korea. In the past year alone, Liu has received requests from 23 more schools in 10 states and Canada, Cyprus, and New Zealand to implement the program. In the Austin area, it’s part of the school science curriculum in Round Rock, Leander, and Killeen.

Even though the addictive game is intended for sixth-graders (it’s aligned with the sixth grade Texas Essential Knowledge and Skills test), teachers in fifth through ninth grade classrooms have used it and proven that, with modifications, it’s an equally superb tool for a broader audience.

Students use the Alien Rescue video game in school.

Students use the Alien Rescue video game in school.

That broader audience includes the dozens of graduate students over the past 10 years who have refined and improved the game – adding new features, incorporating new technologies, fleshing out the characters, and updating the science content.

“When I agreed to develop this game, I never anticipated it would entice so many top-notch students, ones who jump at the chance to use it as a learning tool and research platform,” said Liu. “Alien Rescue meets their needs, whether they’re wanting to develop technical, design, or research talents. Our team has included grad students from backgrounds as diverse as learning technology, video production, teaching, astronomy, content development, and computer science.”

As part of the project, Liu’s graduate students have had opportunities to present papers about Alien Rescue at major learning technology and education research conferences. In addition to several other honors, the game has won the Interactive Learning Award from the National Association for Educational Communications and Technology, while those who’ve worked on the game have been honored with an Outstanding Research Paper Award from the World Conference on Educational Media and Technology.

“The thing that makes this project so special,” said Jina Kang, a doctoral student on Liu’s team, “is that every new group of graduate students brings new talents to the table and the game improves every single year. It’s never static. This is one major reason we’re getting so much positive attention.

“For example, right now we’re building a dashboard that teachers can use to follow, in real time, what students are doing in the game. And we’re working to integrate more math content into the program so math teachers can use it in their classes. We gained three new graduate students who have been middle school math teachers, so we’re able to develop multimedia-based math concepts and make Alien Rescue interdisciplinary. It’s all kind of amazing.”

Like robotics, high quality educational video games are igniting learning in students who never thought they could master complex math and science material.

“Over the past several decades science has shown us so much more about how the brain works, especially young, developing brains,” said Petrosino. “We know more about how children learn. Using this new information, we’re coming up with fresh ways of increasing students’ knowledge.”

-Video by Mengwen Cao from the Alien Rescue team

Originally published in October 2011

Working with The University of Texas at Austin’s Cockrell School of Engineering, area school districts, and members of the education industry, the College of Education is helping implement Beyond Blackboards, a program that introduces middle school students to engineering design.

Robo Maniacs

“An art student, for example, who shows design promise would never know that there was a niche for her in engineering and most teachers would not know that this talented student could flourish in an engineering class.” – Dr. Anthony Petrosino

Beyond Blackboards is funded by the National Science Foundation (NSF) is based on the highly successful Design Technology and Engineering for America’s Children (DTEACh) engineering outreach program. DTEACh and Beyond Blackboards emphasize hands-on experience with technology and the use of design challenges and robotics to create a context for math and science learning.

“Most students don’t have an entirely accurate perception of what it means to be an engineer and what engineering involves,” said Dr. Anthony Petrosino, associate professor in the College of Education’s Department of Curriculum and Instruction and co-principal investigator for the NSF grant. “Most adults don’t either, for that matter. One of the strengths of Beyond Blackboards is that it’s designed to educate not only the middle school students, but also teachers, school administrators and parents, or other caregivers, regarding the breadth of education and career opportunities available to someone who’s developed strong math and science skills. Most people are surprised – they possess a rather narrow definition of ‘engineer.’”

Realizing that not all students will, or should, become engineers, Beyond Blackboards focuses on using engineering-based challenges and projects to build students’ skills in analysis, problem-solving, negotiation, creativity, tolerance for ambiguity and understanding of systems thinking. Any or all of these skills can help students successfully pursue university degrees and lucrative career paths in any number of fields.

Ojeda Gators

The Ojeda Middle School “Engin Ears” robotics team participating in a Beyond Blackboards robotics competition. According to Dr. Anthony Petrosino, middle school is a critical decision-making time for students and Beyond Blackboards focuses on supporting and educating those individuals who are in a position to positively influence students when it comes to the development of math, science and technology skills.

“Unfortunately, many K-12 engineering programs have been modeled after university engineering programs, which means that students don’t get introduced to the design element of engineering,” said Petrosino. “An art student, for example, who shows design promise would never know that there was a niche for her in engineering and most teachers would not know that this talented student could flourish in an engineering class.”

Historically underserved student populations are particularly at risk for falling through the cracks, with the dropout rate for Hispanics currently standing at around 40 percent. Many of these students may not perform well on tests but can possess skill sets that allow them to do well in engineering design. The confidence and expertise gained in engineering design can be a launching point for understanding core math and science subject material.

To encourage more students to enter science, math, engineering and technology (STEM) fields, Beyond Blackboards is taking a four-pronged approach that includes research-based materials and training for students, teachers, school administrators and parents.

Students are engaged in inquiry-based, open-ended, hands-on learning activities and introduced to a varied selection of STEM college options and careers during after-school programs, such as robotics clubs, as well as in intensive summer camps.

Teachers are trained to lead out-of-school robotics programs, receiving engineering professional development that increases their content knowledge and the level of comfort with which they employ technology in their classrooms.

Teachers are educated in how to introduce students to engineering, using techniques such as drawing students’ attention to everyday examples of engineering topics, thereby placing abstract engineering concepts into familiar contexts. The teachers also learn how to generate interactive discussions about science and math concepts underlying engineering subject areas; set up exploratory labs for the students; present open-ended design problems in class; and help students become adept at communicating technical information, such as their engineering design solutions.

Dailey

“Really focusing on historically underserved groups, we’re tapping into a large, promising future workforce – this is a great opportunity to increase the number of individuals who have STEM skills.” – Dr. Anthony Petrosino

Beyond Blackboards builds support from school counselors and administrators by offering them professional development that include education on STEM career opportunities and field trips to area businesses and organizations that offer a broad array of jobs in STEM fields. The education professionals also can avail themselves of presentations, discussions and hands-on activities that explain and illustrate students’ learning experiences. Teachers outside math and science – career instructors and art teachers, for example – have access to this training as well.

And finally, the program also reaches out to parents and caregivers, targeting historically under-represented groups in order to build understanding about the options open to students who have math and science skills. Among other things, Beyond Blackboards shares STEM college and career awareness activities with parents of children who are in the robotics after-school clubs or summer camps.

At The University of Texas at Austin, Beyond Blackboards engages engineering and UTeach students to serve as mentors for middle school students in the program.

“Support from multiple sources increases the likelihood of success,” said Petrosino. “Corporate partners like DTEACh are very involved as well as Skillpoint Alliance, a Central Texas education and workforce agency, and members of communities around the participating schools.

“Research points to the fact that middle school is a critical decision-making time for students and Beyond Blackboards focuses on those individuals who are in a position to positively influence students. Really focusing on historically underserved groups, we’re tapping into a large, promising future workforce – this is a great opportunity to increase the number of individuals who have STEM skills.”