Tag Archives: active learning

Creating a Maker Culture

“The emergence of maker culture depends a great deal on our understanding that different people learn through different means. Some are auditory learners, and some are visual learners. Yet another group learns best by doing. These are the makers.” –William Craig in Forbes

Over the past few months I have written about our efforts to turn a room in our district’s high school into a makerspace. While the makerspace will always be evolving with the addition of new materials and technology, we can say for now that it is done and ready for use. The first order of business once the room was completed was to begin instilling in our students an idea that can best be summarized as the maker culture. As William Craig explained in Forbes magazine, the maker culture leans heavily on a constructivist approach to

Students work with littleBits to create a city.
Students work with littleBits to create a city.

education–that is the notion that learning is best done through doing. In a sense we all probably understand that one of the best ways to learn something is to do it yourself. Trial and error and intellectual risk taking are all part of this makerspace learning experience. American history is filled with stories of makers who tinkered around, explored how things work, and ultimately changed the world forever. From Edison to Wozniak, the maker culture has been an important part of the American experience. As educators, we need to ensure our students are familiar with this. The maker culture in schools is one that encourages students to explore new technology, to collaborate with others, to use materials in new ways, and to ultimately learn by doing. Maker culture is about breaking down barriers and making new technology and ideas accessible in a low-risk environment. Since our makerspace opened, we have been working hard to bring this maker culture mindset to all our students.

To open the makerspace we planned for a series of Saturday morning makerdays for students in our school district. We have invited elementary and middle school students to come into the high school’s space and make. With support from our board of education and education foundation, we have hosted two of these makerdays for students and can see a maker culture beginning to develop. For elementary students, we created a challenge where teams of students had to learn about circuits and the electricity grid, then build their own cities powered by littleBits. Our young makers had a blast and built some amazing cities as you can see in this gallery.

We also hosted a makerday for middle school students that featured three engineering design challenges using an old invention–the popsicle stick. Students were tasked with creating a catapult that can fire a marshmallow the farthest, building a bridge that can hold the most weight, and finding a way to protect an egg so it will not break when dropped from fifteen feet high. The pictures below show some of the amazing bridges students were able to build in forty minutes using only popsicle sticks, glue, and about two feet of string. The winning design spanned over fourteen inches and was able to hold about thirteen pounds of sand!

We will host additional makerdays this year with the goal of creating a district-wide vertically articulated makerspace culture. Like all makers, we have learned a ton in the process of putting these events together. Not everything has been perfect, and we will continue to refine our makerday approach. The one constant has been our talented students who are able to work collaboratively to make amazing inventions. They are beyond impressive. We hope they will be influenced by their time in the makerspace and continue to embody the maker culture by tinkering, exploring, and inventing.

Our Makerspace

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A panoramic view of our makerspace.

I am proud to announce that our high school’s makerspace is now open for business. Called STEAMWORKS, this space is for students to build and explore new technology (and even take apart old technology). We have spent the last few months finding a space, funding, and materials to bring the maker movement to our students. We were inspired by many of the top schools in the country that have built makerspaces on their campuses. UC Berkeley, Case Western University, Cornell University, and MIT are a few that now have makerspaces for students to explore emerging tech. Overall, recent estimates put makerspaces in 60 colleges throughout the nation where students can do things like learn to print in 3-D or build a drone.

“The Maker Movement overlaps with the natural inclinations of children and the power of learning by doing.”

–Sylvia Libow Martinez and Gary S. Stager in Ed Week Teacher

John Booske, a professor and chair of the electrical and computer engineering department at the University of Madison-Wisconsin had this to say about makerspaces in a recent article: “We’re going to see more and more adoption of makerspaces as institutions are able to. They are one model of a larger trend which is moving towards active learning.” For Booske, makerspaces are part of the trend in education “towards personalized and blended learning, the flipped classroom model and a more collaborative learning environment.” This trend can be easily seen in the student-run makerspace lab on the campus of MIT called “MakerWorks” that opened last year. This lab is a place where “students, faculty, and staff are allowed to work freely on any project they choose” and “consists of prediction, prototyping, and validation tools to support a wide variety of projects.” MakerWorks has become a popular place on MIT’s campus as students have embraced the open culture and accessibility of the technology it contains. It’s imperative that schools begin to offer places where students can direct their own learning while having access to resources not encountered during the traditional school day. Learning to work with classmates, teachers, and members of the community can help inspire students to take charge of their learning while also preparing them for the types of experiences they may encounter in the future.

Below are pictures of our new makerspace. We will offer our first makerspace camp this Saturday morning for elementary students in our school district (it “sold out” in a few hours).

  
  
  

  
  

What do you want to make?

Taking Flight

I have worked in public education for well over a decade. During this time, I have come to feel strongly that providing students with a variety of opportunities is the backbone of the public education system. It is imperative that we as educators continue to introduce students to different and new ideas and activities in hopes that they will positively impact their future. The problem is, the world is changing faster than it ever has, making it all the more imperative that we continue to provide students with opportunities that are relevant  in this technology-rich world. New technology is quickly altering how we live and the types of careers our students will likely venture into once they graduate. While traditional careers like dental hygienist and occupational therapist are still included in top ten jobs lists, newer occupations like data scientist, software engineer, and biomedical engineer are now included as well. In fact, eight of the top ten jobs included in CareerCast’s Top 200 Jobs of 2015 are in STEM-related fields. Many of these jobs require that employees be able to work collaboratively on teams and use critical thinking skills to analyze large amounts of information quickly. Besides these STEM-related occupations, new software and devices seem to appear daily, making it difficult for schools to keep up with the rapid changes that are occurring. It is important that schools give students opportunities to explore cutting-edge technology without waiting for that technology to become a part of a curriculum’s unit of study. The reality is that things can move so fast that by the time new technology becomes part of a traditional course, it can very quickly become old technology. A makerspace can help bridge this divide by quickly bringing students into contact with new technology and ideas in a low-risk, collaborative environment.

Screen Shot 2016-01-04 at 1.58.39 PMAs I’ve chronicled on this blog, we have worked since September to create a makerspace–called STEAMWORKS–here at our high school. The name “STEAMWORKS” incorporates the acronym STEAM (science, technology, engineering, arts, and math) with the word “works” to symbolize that students will work and explore new technologies as they relate to STEAM. Once the STEAMWORKS Makerspace is completed, it will be filled with things like programmable legos, droids, a 3-D printer, electronic circuits, and just about anything else you can build with. We’ll even have a station where students can take apart IMG_0399technology like old computers to learn how those machines work. Today, the newest addition to our developing makerspace was delivered: a DJI Phantom 3 drone. So, of course a few of us had to brave the cold and go outside to play with it. Here is a video from our first flight (please watch!). The Phantom 3 is incredible. Watching the video footage really makes you feel like you’re flying.

We are hoping for a late winter or early spring opening of the STEAMWORKS Makerspace here at the high school. Continue reading for a snapshot of what the makerspace will have.

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STEAMWORKS Plan

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We worked hard over the past few months trying to determine the best way to implement this makerspace. We surveyed almost 1,000 students and hundreds of teachers to determine interests and current trends, took site visits to other makerspaces in New Jersey, and conducted research to determine everything from the types of technology to offer students to what kinds of tables should be used. Throughout the planning phase, a number of themes were identified as being marks of successful makerspaces and will be included in STEAMWORKS:

  • Openness
  • Hands-on activities
  • Faculty-student interaction
  • Community involvement
  • Collaborative work stations
  • Unique technology
  • Effective signage (sounds silly but turns out is actually important)

As material and technology start to get delivered, we can see our hard work paying off as our makerspace begins to take flight. The best part about opening a makerspace is that sometimes you get to play with the toys. That’s how a few of us found ourselves braving twenty-degree weather to fly our makerspace’s amazing new drone.

p3s-and-transmitter-angle

 

 

 

What Does The Future Hold for Schools?

The New Media Consortium (NMC), a community of hundreds of leading universities, colleges, museums, and research centers, has issued an important report called the Horizon Report: 2015. The report examines emerging technologies for their potential impact on and use in teaching, learning, and creative inquiry in schools (access the report here). The driving question for the report is “What is on the five-year horizon for K-12 schools worldwide?” A team of experts engaged with the report agreed on two long-term trends: “rethinking how schools work in order to bolster student engagement and drive more innovation, as well as shifting to deeper learning approaches, such as project- and challenge-based learning.” The report is a must read for any school district personnel looking to map out the next five years in terms of where they see technology and instruction heading.

Makerspace education also has the potential to empower young people to become agents of change in their communities. (The Horizon Report)

I’m still working my way through the study, but one part that caught my eye was the analysis of the future role makerspaces will play in schools. A makerspace is a place where anyone interested in learning something new can come together to design, create, and build projects of their choosing. In short, makerspaces are where learners can explore their curiosity in a low-risk environment. “Makerspaces are places where anyone, regardless of age or experience, can exercise their ingenuity to construct tangible products,” write the authors in their report. “Schools are turning to makerspaces to facilitate activities that inspire confidence in young learners, and help them acquire entrepreneurial skills that are immediately applicable in the real world.” The report shares a number of makerspace success stories from around the world that are particularly inspiring and also provides a host of links to examples of makerspaces currently in use in K-12 education.

The growing global makerspace movement has influenced our district to begin the creation of makerspace areas in our schools. We have spent a fair amount of time visiting other makerspaces in the area, researching best practices, and creating implementation plans. It’s clear that makerspaces are going to be a vital component of a modern learning environment. “The turn of the 21st century has signaled a shift in the types of skillsets that have real, applicable value in a rapidly advancing world,” asserts the authors of the Horizon Report. “In this landscape, creativity, design, and engineering are making their way to the forefront of educational considerations, as tools such as robotics, 3D printers, and web-based 3D modeling applications become accessible to more people.” A makerspace can bring these tools to students while encouraging the use of skills they will need to compete in the 21st century. The Horizon Report is packed with anecdotes from case studies and external links to additional resources. It’s a must read for any educator wondering what the future holds for their students.

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A graphic representing the challenges and developments facing K-12 education. Source: The Horizon Report

 

Fail Fast

The engineers and venture capitalists of Silicon Valley have embraced the mantra “fail fast” in their relentless pursuit of the next big thing. Failure, which for so long has been something schools did not advocate, is becoming more and more popular in the tech world. To fail fast means that people should fail early and often on their way to a great idea. Failure is now something cool. And it should be. The reality is, we all learn from failure as it’s an essential component in trial and error.

But while the Web has made it easier and cheaper to start up and succeed, it has also made it easier and cheaper to fail.

–Eric Markowitz in “Why Silicon Valley Loves Failures”

Dave McClure is a venture capitalist in a startup incubator in Silicon Valley called 500 Startups. It’s more commonly known by its alternate name: the fail factory. “The alternate name we came up with for 500 Startups was ‘fail factory,'” explains McClure in Fast Company. “We’re here trying to ‘manufacture fail’ on a regular basis, and we think that’s how you learn. Getting used to that, bouncing back from that, being able to figure out what people hate and turn that into what people love…if you’re not willing to take the risk of failing and not experience failure, you’re never going to figure out what the right path is to success.” The reality is, failure has not traditionally been embraced, but this is starting to change. Eric Markowitz of Inc.com hypothesizes that many factors have led people to embrace failure today. “The first, and most obvious answer, is that failure has become inexpensive,” Markowitz writes. “Decades ago, starting a business typically entailed borrowing capital from a bank, friends, or family. Opening a physical storefront required lots of capital. Today, the Web has democratized the process for starting up–building a website and hosting its data, even for e-commerce, are relatively inexpensive.” For these reasons–at least in the the technology world–failure is embraced as it is a necessary part of the learning process. In fact, there is now a global conference series dedicated to studying and celebrating failure called FailCon.

For a long stretch in the twentieth century, learning theory was dominated by the work of Harvard psychologist B. F. Skinner–a man many consider to be the most influential psychologist of the twentieth century. Skinner advocated a theory called “errorless
learning.” In Skinner’s model, learners were spoonfed new material in small bites and immediately quizzed on it while it remained in short-term memory. As the authors of Make It Stick: The Science of Successful Learning point out, students in Skinner’s model had virtually no chance of making an error. As the two renowned psychologist-authors of Make It Stick reinforce throughout the book, errors are an integral part of the learning process–especially with new material. “Yet in our Western culture, where achievement is seen as anlogo indicator of ability, many learners view errors as failure and do what they can to avoid committing them,” the authors write. “The aversion to failure may be reinforced by instructors who labor under the belief that when learners are allowed to make errors it’s the errors that they will learn.” We know today that this belief is misguided. Freedom from “errorless learning” has so empowered people that a group from Finland has created the Day for Failure taking place next week. It’s a chance for people to lose their fear of messing up. People can participate by tweeting their failures to #dayforfailure.

Fail fast, manufacturing fail, fail factory, FailCon are terms that help capture the mood of the technology and venture capital world today. However, the idea of celebrating failure is not likely something you see embraced in daily life. One way schools can embrace failure and teach perseverance is by encouraging self-directed learning (and yes, failure) by giving students a place to invent and learn from their experiences. This is why we are beginning the process of putting makerspaces in our schools. A makerspace is a place where students come together with expert faculty to design, create, and build projects using material and technology they might not come in contact with during the regular school day. Exploration in a makerspace is student driven. Makers are limited only by their imagination.

A makerspace is a place to tinker and explore. It’s a place where you can build with legos, print in 3-D, or even learn how to fly a drone. In a makerspace, failure is expected as is learning from mistakes. The reality is, as you explore new ideas and technology, you will always make mistakes. On this blog, I’ll chronicle our makerspace journey as we move from concept to reality. Besides, don’t you want to learn how to fly one of these?

Invent Anything

As someone who has spent a lifetime in education, I’m always on the lookout for free or cheap ways to do cool stuff in classrooms. Whenever a new idea comes out, I always try to find ways to lower costs or to get the latest fad for free. I obviously don’t mind spending money on quality products (hello, Apple and WordPress), but I have to be wowed before I can be convinced to splurge on something that costs money. I’m fearful of not spending wisely or spending money on something that could be irrelevant in a year or two. It seems that technology improves so fast that it can be difficult to commit to anything because you fear your purchase might be obsolete in a few months. As David Pogue wrote in Scientific American, “It’s human to fear new technology.” However, you can’t let fear of making a bad decision paralyze progress. You need to take chances and try your hardest to give students all the tools they will need to be competitive in an ever-evolving workplace.

In an edcamp raffle last week, I won a Little Bits Base Kit that comes with everything youbaseBoxAngled need to get started creating amazing inventions. Little Bits says their mission is to “democratize hardware” but I think they have done more than that. They have created a way to bring the spirit of innovation to students by introducing them to circuits, hardware, basic technology, and encouraging them to experiment. I set out to test Little Bits with my seven-year-old son and am blown away by the product. I think a series of Vines will tell our Little Bits story better than words, so here it is:

We opened the box and made a buzzer (you need sound):

We used the dimmer (you need sound):

We made a tickle machine (this is cool and it works):

We made a windmill (I’m most proud of this!):

Watch the founder of the company, Ayah Bdeir talk about why she wanted to democratize hardware. After watching her talk and playing with Little Bits, you’ll realize why they should probably be a cornerstone of every classroom makerspace.

What am I doing here?

It seems obvious that students might find it helpful to know what they are going to be learning, and yet, consistently sharing learning intensions with students is a relatively recent phenomenon in most classrooms. –Dylan Wiliam

After a post last week about articulating learning goals, a question was e-mailed to me by an educator who wanted to know if learning goals need to be written on the board for every lesson. Sometimes the objective of a lesson, the educator rightly asserted, is to have students discover answers on their own without direction from a teacher.  A classic example of this is a SOLE lesson, where student inquiry is guided by a single question and Za learning objective is not present. Students are encouraged to discover meaning during their pursuit of an answer. Whether or not teachers should make learning objectives present for students during a SOLE lesson or other inquiry-based activity is a great question as it addresses a fundamental principle of lesson design and classroom management. Namely, how much information do we need to give students so they can answer this question: What am I doing here? Luckily, Dylan Wiliam writes about this dilemma in his recent book, Embedded Formative Assessment, so we can turn to him for an answer. Wiliam and his book are amazing, by the way.

Wiliam calls the sometimes mandated approach of having teachers post a learning objective before each class “wallpaper objective.” Clearly, with a term like this, Wiliam is not in favor of this approach. Wiliam believes that “sometimes it’s not even a good idea to tell the students what the lesson is about” (56). A SOLE lesson is a classic example of this. The point of a SOLE lesson is for students to discover meaning behind a question by working together to make connections between relevant material. Therefore, for Wiliam, it is not necessary to post a learning objective during each class. “Sometimes we can be very specific, such as when we require laboratory reports to be structured in a particular way–diagrams are to be drawn in pencil and labeled, and so on,” explains Wiliam. “At other times, it may be that the best we can do is help the students develop what Guy Claxton calls a ‘nose for quality'” (58). Rubrics can play a part in this process as long as they are shared with students who are given time to think through, in discussion with others, what the rubrics mean.

Wiliam believes that sometimes it is appropriate for the teacher to present learning intentions and success criteria to students at the beginning of a lesson. He shares that teachers of younger students find the acronyms WALT (We are learning to) and WILF (What I’m looking for) to be helpful at informing students of a lesson’s intent. “Unfortunately,” Wiliam writes, “in many districts, the pendulum has swung too far the other way: a lesson is regarded as a bad lesson if the teacher fails to post a learning objective at the start” (69). Wiliam does include in his book some ways learning goals can be reinforced without resorting to “wallpaper.”

Wiliam’s Non-Wallpaper Techniques for Clarifying Goals

  1. Have students look and analyze samples of other students’ work
  2. Peer review where students discuss the quality of their work
  3. Have students design test items with correct answers about what they have been learning

I don’t think it’s necessarily bad if a teacher were to post an objective with every lesson. However, like Wiliam, I don’t think it’s essential for classroom success. If I saw a successful lesson, I would never find fault with a teacher for not writing a learning objective on the board–especially when the point of the lesson might be to have students find their own question-mark-452707_640connections. What makes a genuine difference in a classroom is when a teacher works to ensure that the questions they are asking students are of a high level, that all students get to participate in the learning process, that the problems students try and solve are written clearly and are relevant to learners, and norms have been established in a classroom so students can be given freedom to explore material while staying on task. Oftentimes lessons are not as successful as they can be because one or more of these things are missing. We should always strive to make our lessons and meetings as specific as possible for participants, and agendas, clearly defined learning objectives, and rubrics are a big part of this. “Like everything else in teaching,” Wiliam summarizes, “there are no simple rules, and it is up to the teacher to exercise professional judgement in how best to communicate learning intentions and success criteria to students” (69). It’s important to note that the less students have to wonder “what am I doing here?” the more time they will have to think about a task.