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Posts Tagged ‘experiential learning

Maker Education Camp: Circuit Crafts

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This is my third summer offering maker education summer camps as part of a bigger program at a local school.  During mornings (9 to 12 with a half hour recess), campers, grades Kindergarten through 6th grade, can choose from one of four enrichment classes: art, drama, games, foreign languages, computers, and in my case, maker camps. During the afternoons, all campers get together for typical camp activities – fun and games, field trips, water sports, silly competitions. Each camp lasts a week. This summer I am offering: Cardboard Creations, Circuit Crafts, Toy Making and Hacking, and Robotics and Coding.

I often discuss the need to implement maker education programs with minimal cost materials and ones that offer the potential to tap into diverse learners and their diverse interests:

3d Printers, Ardinos, litteBits, Makey-Makeys, GoSpheros, Lillipads, . . . oh my! These technologies are seductive especially seeing all the press they get on social media, blogs, and Kickstarter.  Given all of the media coverage, an educator new to Maker Education may get the perception that it is all about this kind of high tech stuff. For less affluent schools or after-school programs, it may seem that maker education is out of their reach given budgetary restraints. A maker education program can be fully implemented with minimal cost supplies. Cardboard boxes, recycled materials such as water bottles, detergent bottles, and other plastic throwaways, tape, glue guns, scissors/knives, and markers in conjunction with learners’ imaginations, creativity, and innovative ideas can be the stuff that makerspaces are made of (Making MAKEing more inclusive).

Many of the discussions about and actions related to integrating maker education into educational environments center around the use of new technologies such computer components (Raspberry PisArduinos), interactive robots for kids (Dash and DotOzobotsSpheros), and 3D printers. These technologies are lots of fun and I facilitate Robotics and Computer Science with my gifted students and at one of my summer camps (noting that I purchased the robots myself). The learners engaged in these high tech learning activities with high excitement and motivation. Such high excitement, engagement and motivation, though, were also seen at my low tech/low cost maker education camps: LED crafts, Toy Hacking and Making, and Cardboard Creations. A recent NPR article discussed several challenges for maker education. One of them was related to equity issues, providing maker education for all students regardless of income level:

A big challenge for maker education: making it not just the purview mostly of middle- and upper-middle-class white kids and white teachers whose schools can afford laser cutters, drones or 3-D printers (3 Challenges As Hands-On, DIY Culture Moves Into Schools).

(Cardboard Creations: A Maker Education Camp )

This post lists the materials I used for the Circuit Crafts and descriptions of the activities.

Materials and Costs:

This camp did have some costs associated with it but I believe that given the wide range of activities offered, the costs were justified. The following is my materials list and costs. FYI – I actually purchased most of these materials cheaper via ebay.

  • Snap Circuits Pro (2 at $60 each – $120)
  • Circuit Maze (2 @ $23 each – $46)
  • Circuit Kits (3 at $14 https://www.amazon.com/Basic-Circuit-Kit-Batteries-Holders/dp/B00FKCVFPW – $42)
  • Squishy Circuits
    • Playdoh (two 10 packs at $8.00 each – $16)
    • modeling clay (24 color pack @ $14)
    • 5 mm LED’s – used for several projects (500 mixed color from ebay – $14)
    • 9V Batteries (10 2-packs from Dollar Store – $10)
    • battery terminals with wires (20 – $10)
  • Gami-Bots
    • business cards ($5)
    • coin pager motors (50 from ebay – $25; I got extras as sometimes the wires pull out and sometimes the campers want to make more than one)
    • coin batteries – used for several projects (200 from ebay – $20)
  • Wiggle or Art Bots
  • Paper Circuits
    • coin batteries (purchased quantity under Gami-bots)
    • 5 MM LED lights (purchased quantity under Squishy Circuits
    • copper tape (2 rolls of 1/8″ x 55 yd – $15)
  • Minecraft Blocks and Dollhouses
    • Cardstock (150 sheet pack from Walmart – $5.50)
  • Miscellaneous Supplies (found at school)
    • Tape
    • Two sided tape
    • Scissors
    • Paper
    • Butcher Block Paper
    • Markers

The total budget for serving 20 kids for 2.5 hours per day for 5 days was about $450 noting that the games and kits ($200 of the money) used to kick-off the camp were one time purchases. They will be used again for future camps. It ended up being $22 for each camper for the entire week – $12.50 without the games or kits. Having a materials fee; or doing DonorsChoose.org or a fundraiser can easily cover these costs.

What follows are descriptions and how-tos for the circuit activities at did at this maker camp.

Introduction to Circuits with Games and Manipulatives

To introduce learners to circuits, they played with:

For the first morning, I set up stations for each of the above. Learners were asked to work with a partner or two. They moved to any station at any time as long as they spent time finishing several projects at a given station.

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Squishy Circuits

Squishy Circuits uses conductive and insulating play dough to teach the basics of electrical circuits in a fun, hands-on way. There’s no need for breadboards or soldering – just add batteries and pre-made doughs (or make your own dough). Squishy Circuits are very simple and is based on two play doughs – one that is conductive (electricity flows through it) and one that is insulative (does not allow electricity to flow through it). Power is supplied by a 4AA battery pack and travels through the conductive dough to provide power to LEDs (Light Emitting Diodes), buzzers, or motors.  https://squishycircuits.com/what-is-squishy-circuits/

This PDF was shared with the makers campers: Squishy Circuits Introduction PDF.  It provides some background and simple get started activities.

I then project resources on the Whiteboard to spark ideas for creative use of Squishing Circuits:  http://www.pearltrees.com/jackiegerstein/squishy-circuits/id15355392squishy

 

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Gami-Bots

A Gami-Bot is a simple DIY origami robot that is made from a vibration motor, business card, 3v cell battery, and tape. It is so easy it practically builds itself (https://otherlab.com/blog/post/howtoons-gami-bot).

This was developed by Howtoons. They now sell it as a kit but I buy all of the materials separately as they are simple materials and easily accessible.

Directions can be found via this Howtoons cartoon:

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This is a high engagement, low entry activity for both younger and older (like adults) learners. I encourage learners to decorate them to make them more anthropomorphic and to engage in free play after their creation which often translates into competitions such as racing and length of time staying in determined area.

 

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Wiggle and Art Bots

As this was a summer camp with a budget, my “big” purchase for this camp was Wiggle Bots bought from TeachGeek , but with a few parts like 3v motors, AA batteries, AA battery holders, plastic cups, markers, and tape, learners can easily make their own wiggle and art bots. See my page of resources on Artbots and Scribbling Machines at http://www.makereducation.com/artbots–scribbling-machines.html

 

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LED Paper Projects

The last two days of camp were spent making LED projects:

  • Minecraft Blocks
  • Paper Circuits
  • Circuit City

Minecraft Blocks

I printed off paper templates for Minecraft Blocks from http://stlmotherhood.com/diy-minecraft-light-blocks-diamond-emerald-redstone/. (Yes, it requires a color copier which all of the schools where I work [including the Title 1 ones) have.) Campers were instructed to cut them out and hole punch out “windows” in their blocks to allow the light to shine out. After assembling their blocks leaving the top open, they inserted LED lights with coin batteries taped into place.

components_throwies

http://www.technologystudent.com/elec_flsh/button1.html

 

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Paper Circuits

I printed off the the parallel and switch circuit templates found at paper-circuit-project-templates. I printed them in color but black and write would have been fine. Additional materials for this project were LEDs, copper tape, and coin batteries. The templates are pretty self-explanatory so I walked around and gave the campers assisted when needed.

 

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Circuit City

Finally, learners were given templates for paper house structures (https://www.template.net/business/paper-templates/paper-house-template/ – I encouraged campers to add lit LEDs as they did for their Minecraft blocks. They were asked to also use their Minecraft blocks and their paper circuits as part of the city. The miscellaneous materials (craft sticks, straws) were also available for them to use. A large piece of butcher block paper was placed on the floor and the learners were given the following simple directions, “Create a city out of your paper crafts: your houses, Minecraft blocks, and paper circuits. You can use the extra LED/coin batteries and markers to add to your city.” Once their city was complete, I darkened the room.

This is the second time I’ve done this activity, and both times, I observed the campers having lots of fun doing some spontaneous role play interacting with the city and each other.

 

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Written by Jackie Gerstein, Ed.D.

July 8, 2017 at 4:41 pm

The Classroom or Library as a Maker Space

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Makerspaces, Maker Education, STEM, and STEAM are gaining lots of traction in Kindergarten though college level education. Articles, resources on social media, and conference presentations on these topics are proliferating at a rate that most educators are now familiar with maker education.

Makerspaces like vocational shops and science labs are great additions to schools. They often contain the tools, machinery, and technologies associated with making – 3D printers, laser cutters, vinyl cutters, high tech robotics, vocational tech machinery. These are great for educational institutions and learners that can afford them.

Problems occur when administrators, educators, learners, and communities come to believe that maker education is synonymous with these tools and spaces. First, they may be out of budget for schools especially those serving lower income populations. Second, the regular classroom teacher or librarian may be intimidated with these advanced tools and technologies. Finally, in order to prevent maker education in becoming the educational flavor of the month, administrators, educators, and libraries need to not be seduced by these high tech tools. The longevity and sustainability of maker education will depend on making it feasible, approachable, and accessible to the masses of educators.

A classroom or library can be transformed into its own makerspace, a space for powerful student learning by doing the following realistic and workable actions:

  • Removal of Obsolete, Non-Flexible Classroom Desks (including the traditional teacher’s desk)
  • Spaces for Playing, Tinkering, Making, Collaborating, Discussing, Researching, Reflecting
  • An Agile and Nimble Learning Environment
  • Materials Openly and Easily Available
  • Materials and Activities to Spark Diverse Learners and Their Diverse Interests
  • Scavenged Materials
  • A Place and Space That Supports Chaos and Messiness
  • Accessible, Low-Entry, High Ceiling Materials and Activities
  • A Learning Environment Driven by Learner Choice and Voice
  • The Space Screams of Fun and Engagement
  • The Space Screams of a Maker Mindset Not the Stuff

classroom makerspace

Removal of Archaic, Non-Flexible Classroom Desks

The image that often comes to mind about the classroom desk is one that features a plastic chair with chrome legs and a fiberboard tabletop that partially encloses a student’s body (for a history of the classroom desk, see A Visual History of School Desks). The first step for creating a classroom or library space that supports making is to get rid of these archaic pieces of furniture that seem to have been invented more for control than for learning.

The idea that students must be seated at desks working in rows is quickly becoming archaic. Technology and collaborative work environments are changing the design of learning spaces. Experts hope that the emerging paradigm will translate into improved learning spaces (Learning Environment: 20 Things Educators Need to Know about Learning Spaces).

Spaces for Playing, Tinkering, Making, Collaborating, Discussing, Researching, Reflecting

Classroom educators and librarians may wonder how they might create spaces for playing, tinkering, making, collaborating, discussing, researching, and reflecting. First and foremost, they need to develop an innovator’s mindset, one outside of the box of what a classroom should look, sound, and be like. Second, practitioners need to become intentional in insuring that a full spectrum of making skills, attitudes, and knowledge is offered to learners. What will follow is educators and librarians who are creative, innovative, and resourceful in creating spaces that can offer a variety of learning activities. The types of desired learning activities should drive how the learning space should be set up as discussed in the case studies reported by the Hechinger Report article, Personalized Learning: Why Your Classroom Should Sound Like A Coffee Shop:

As a first step, they began with ideas and used them to define the space. Searching questions such as “What types of activities will define this flexible space?” were used to escape the constraints of the physical space and get beyond our own set of normal limitations.

An Agile and Nimble Learning Environment

The intentional use of flexible seating that form agile and nimble learning spaces support the learning intentions discussed in the previous section.

An agile learning environment is an educational playground that is intentionally designed to be adjustable, exchangeable and moveable. The learning space is designed to support idea generation, collaboration and experimentation. agile learning environments ultimately showcase how the design of a physical space, as well as the implementation of technology within that space, can shift how people communicate with one another.

The primary goal of an agile learning environment is flexibility. The furniture in the space, and the technology used within it, are flexible so that it can be configured and re-configured to suit different approaches to learning and teaching. An agile learning environment has the ability to turn a static or ‘dead’ space into a dynamic space (The primary goal of an agile learning environment).

With some creativity and flexibility, the practitioner can set up a unique, multipurpose space to serve the goals of making, the learners, and multipurpose uses specified above. The spaces become agile and nimble. There are lots of resources that discuss flexible seating. Here is a ScoopIt aggregate of resources  http://www.scoop.it/t/flexible-seating-1

Affordable Materials Openly and Easily Accessible

In a learner-centered classroom environment, materials are displayed openly – being accessible to the learners on an as-needed-when-needed basis.  Both of the elementary schools where I work have general consumables for educators (and I believe it’s true for most schools): xerox paper, butcher block paper, crayons, scissors, tape, markers, rubber bands, papers clips. These materials are stored openly in bins in cubbies for my learners. Here is a list of affordable materials from Education Closet’s 114 Tips to Create a STEAM Makerspace in Schools:

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Materials such as these can provide a foundation for making; brainstorming, prototyping, reflecting and should be available for learners to use for their making activities without asking the teacher. Having them displayed can spark learners’ ideas. So when a learner says, “I need some paper.” (They ask because of their previous school experiences.) My comment back is, “Then go get it.”

Materials and Activities to Spark Diverse Learners and Their Diverse Interests

The maker education and maker spaces movements are way too often symbolized by the machines; 3D printers, laser cutters, high tech components (Raspberry Pi and Arduino) and way too often it is white males who are attracted to these machines. In order to respect the diverse learners represented by gender, age, ethnic and racial background, then first, the definition of making needs to be expanded. As Adam Savage of Mythbusters fame noted in his 2016 Bay Area Maker Faire talk:

What is making? It is a term for an old thing, it is a new term for an old thing. Let me be really clear, making is not simply 3D printing, Art Lino, Raspberry Pi, LEDs, robots, laser and vinyl cutters. It’s not simply carpentry and welding and sculpting and duct tape and drones. Making is also writing and dance and filmmaking and singing and photography and cosplay.

Every single time you make something from you that didn’t exist in the world, you are making. Making is important; it’s empowering. It is invigorating, but why? There are lots of results that are good that come from making. We improve the world around us. We show people how much we care about them. We solve problems, both personal and societal (Adam Savage’s 2016 Bay Area Maker Faire Talk).

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With this expanded definition of making, it follows that the activities and materials in the classroom or library should reflect the diverse learners and their specific interests.

Scavenged Materials

There are so many avenues for acquiring materials for the classroom or library seeking to be at least a part-time makerspace. Once educators open themselves up to all of the possibilities of making, they will find free materials everywhere – cardboard at stores; recycled plastic bottles at school or the local recycling center; the storage closest at school where all of the old science kits are stored (I’ve found them at every school where I work) with all kinds of making supplies; old technologies and appliances for learners to take apart and build new inventions.

IMG_4324

A Place and Space That Supports Chaos and Messiness

Traditional classrooms and libraries are often marked by students at their desks completing their learning tasks quietly, independently with as little movement of possible. This is opposite of what happens in a making environment. The classroom or library becomes loud, seemingly chaotic, and messy, but authentic and engaged learning is often messy.

Learning is often a messy business. “Messy” learning is part trial and error, part waiting and waiting for something to happen, part excitement in discovery, part trying things in a very controlled, very step by step fashion, part trying anything you can think of no matter how preposterous it might seem, part excruciating frustration and part the most fun you’ll ever have. Time can seem to stand still – or seem to go by in a flash. It is not unusual at all for messy learning to be …um …messy!  But the best part of messy learning is that besides staining your clothes, or the carpet, or the classroom sink in ways that are very difficult to get out … it is also difficult to get out of your memory! (http://www.learningismessy.com/quotes/)

Accessible, Low-Entry, High Ceiling Materials and Activities

“When discussing technologies to support learning and education, my mentor Seymour Papert often emphasized the importance of “low floors” and “high ceilings.” For a technology to be effective, he said, it should provide easy ways for novices to get started (low floor) but also ways for them to work on increasingly sophisticated projects over time (high ceiling).” Mitch Resnick in https://design.blog/2016/08/25/mitchel-resnick-designing-for-wide-walls/

I do conference presentations where I have educators and librarians make paper circuits and Gami-bots. The success rate for these projects is 100% which translates into low entry into making (I took liberty to change low low to low entry). At one of my recent workshops, one teacher made the following design out of her paper circuit which says, “The moment your realize you can be a maker.”

IMG_0147

Similar materials can also create a high ceiling or more complex activities such as advanced art projects, most complex paper circuit projects, use of more advanced maker technologies.

A Learning Environment Driven by Learner Choice and Voice

The bottom line of setting up a learning environment based on the tenets typically associated with making is that learner voice and choice is enhanced. When choice and voice are intentionally built into learning then school and education work.

School works when students have opportunities to produce quality work about issues that matter. Education works when people have opportunities to find and develop unaccessed or unknown voices and skills. Audre Lord poignantly describes this “transformation of silence into language and action [as] an act of self-revelation.” Opportunities for flexibility and choice assist learners in finding passion, voice, and revelation through their work (Student Choice Leads to Student Voice).

The Space Screams of Fun and Engagement; a Place for and By Learners

Piaget famously noted that play is the work of children and I have the belief that all humans maintain the sense of wonder of a child. Embedding fun into making; into learning in general increases engagement, joy, creativity, innovation, and collaboration.

In our test-driven educational world of today being on task and on time in many schools leaves little time for play. Lunch periods have been shortened and days and years have been lengthened in an apparent quest to make our students into perfect little technicians, automatons who can react specifically in isolation to a set of pre- set stimuli in a consistent and certain way. Little room is left for the unexpected or the un-planned in our modern classrooms. It is a strangely disastrous way to prepare our children for a future where it appears that the only constant will be continual change. By play I do not mean little league, dance, or any other adult controlled activity. It must be kid controlled, kid directed, and kid policed for real learning about life to take place. Is it possible that our current infatuation with the concept that spending more time on something will make it better is so logical and easily observable and testable that just as logic and observation has in the past it might make people believe that the Earth is flat? (“Play is the work of children”….. J. Piaget).

Fun can be felt, seen, experienced when as soon as learners and visitors walk into the space.  I love watching the faces on visitors when they enter my own classroom. They light up as they see my sofas, chairs, lamps; making supplies in cubbies in the back of the room; and most of all my learners’ work such as LED lit on student-generated posters hanging on the wall, paper roller coasters in-process of being made, and Lego creations on the Lego wall.

The Space Screams the Maker Mindset Not the Stuff

The battle cry of educators using educational technology is that the pedagogy needs to come before the technology. I am baffled, then, why I go to edtech conferences and find so many sessions on the technology, e.g., 60 apps in 60 minutes. The same seems to be true for the maker movement these days. Practitioners talk about the maker mindset and then speak of the shiny new toys they use without talking about the context – of what skills and knowledge students learn from it. For example, with the 3D printer, they might talk about the Yoda they made and I say, “So what?” It really is about having a maker mindset not about the shiny, new maker tools. It’s about the making process; about the engagement, creativity, innovation, struggles to complete a difficult task, sense of accomplishment. A cardboard box, for example, can become a chariot, rocket, robot, marble run, Foosball game, dollhouse, Hot Wheels track, house, fort, castle, game.

We must exercise the discipline to refrain from attaching too quickly to an idea just because it’s new. Making is no exception, so to truly prepare ourselves to be successful in this new venture, let’s be sure we set our students up to have the right mindset to be courageous innovators (6 Must-Haves for Developing a Maker Mindset).

With a maker mindset and some of the strategies outlined above, any classroom or library can become a makerspace.

Written by Jackie Gerstein, Ed.D.

July 2, 2017 at 2:09 pm

Documenting and Reflecting on Learning

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I am a strong proponent of encouraging learners of all ages to engage in reflective practice.

Learners do not just receive information only at the time it is given; they absorb information in many different ways, often after the fact, through reflection. The most powerful learning often happens when students self-monitor, or reflect. Students may not always be aware of what they are learning and experiencing. Teachers must raise students’ consciousness about underlying concepts and about their own reactions to these concepts. ETE Team

Documenting Learning

Silvia Tolisano sees documenting learning as:

  • a process of intentional documenting serves a metacognitive purpose
  • a creative multimedia expression (oral, visual, textual)
  • a component of reflective practice
  • taking ownership of one’s learning
  • a memory aid
  • curation
  • being open for feedback  (Documenting FOR Learning)

http://langwitches.org/blog/2014/07/01/documenting-for-learning/

Blogging as a Form of Documenting Learning and Reflection

I find blogging to be a one of the most powerful ways to documenting learning and engage in reflective practice.

Blogging has its own unique benefits as Sylvia Duckworth’s Sketchnote summarizes:

Top-10-Reasons-for-Students-to-Blog-Sylvia-Duckworth-CC-BY-flickr

Experiential, STEM, STEAM, and maker education are the focus of my gifted education classes. The learners in my gifted education classes have access to Chromebooks.  Having learners take pictures of their artifacts and describing what they did is a standard practice in my classes.

Sometimes I list vocabulary words I ask learners to include in their blogs. For example, for a design challenge, I asked learners to include the following vocabulary:

  • design thinking
  • communicate
  • empathy
  • tolerance

Here are some example blog posts from 6th grade students:

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Blogging, as opposed to keeping a hand-written journal of classroom experiences, has unique advantages in my classroom:

  • Learners can easily include photos of their work.
  • Work is easily reviewed and edited for errors.
  • Learners’ classmates can easily view and comment on one another’s work.
  • Blogging acts as a formative assessment whereby I, as the educator, get an opportunity to learn what elements of the projects were significant for my learners.

A Picture Tells So Many Stories

Because my classroom activities are high engagement, learners become totally immersed in the activities. They aren’t interested in taking photos during the activities. Also due to the student-centric nature of the learning activities, my role becomes that of facilitator walking through the classroom and visiting with individual groups of students to find out what they are doing, answer questions, give feedback. This guide-on-the-side role allows me to take lots of photos of the students. In essence, then, I become the official photography documenting student learner so they and their parents have an archive of the school year’s activity. We review these photos throughout the school year as a form of reflection. It’s fun to hear the learner comments exclaiming joy and amazement in what they learned earlier in the school year.

Here are links to photos I took for my two gifted classes and posted to a shared folder on Google Photos during the 2016-17 school year:

A Final Reflection

As a way to wrap-up the school year, learners should be given the opportunity to review their work from the past school year. For my learners, I asked them to look through all of the photos I took and the blog posts they wrote and choose between 5 and 10 of their most favorite and best projects. (It was great listening them express their delight in reviewing all of the projects they completed during the school year.) After selecting these, learners were asked to create a presentation of their chosen works using one of the following options:

They then presented their work to their peers and a group of adults: parents, school officials, visitors to the school.

A few afterthoughts about this final activity:

  • Throughout the school year, learners were asked to present their learning in front audiences. One of the students has a dual diagnosis – gifted and Asperger’s. This student wouldn’t even talk to the group at the beginning of the year. Loved the confidence shown during the final presentation.
  • The final presentations gave me, as the educator, a type of program evaluation where I got the opportunity to learn the most significant classroom projects from my learners’ perspectives.

Written by Jackie Gerstein, Ed.D.

May 21, 2017 at 5:42 pm

Toy Take Apart and Repurposing

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Toy take apart and hacking is a high engagement activity that works for kids of all ages, including adults who haven’t lost their sense of kid, and both genders. I have done it multiple times during my summer maker camp for elementary level kids, with my gifted elementary students, and at conferences as part of teacher professional development.

Here is a description of this activity from the tinkering studio at the Exploratorium:

Do you ever wonder what’s inside your toys? You’ll make some exciting and surprising discoveries about their inner parts when you don some safety goggles and get started dissecting your old stuffed animal, remote controlled car, or singing Santa. Use screwdrivers, seam rippers, scissors, and saws to remove your toy’s insides. Check out the mechanisms, circuit boards, computer chips, lights, and wires you find inside. Once you’ve fully dissected your toy, you can use the toy’s parts, your tools, and your imagination to create a new original plaything.  (https://tinkering.exploratorium.edu/toy-take-apart)

Standards Addressed

Toy take apart and hacking addresses a lot of cross curricular standards including:

  • Ask questions, make observations, and gather information about a situation people want to change to define a simple problem that can be solved through the development of a new or improved object or tool. (NGSS)
  • Develop a simple sketch, drawing, or physical model to illustrate how the shape of an object helps it function as needed to solve a given problem. (NGSS)
  • Define a simple design problem reflecting a need or a want that includes specified criteria for success and constraints on materials, time, or cost. (NGSS)
  • Report on a topic or text, tell a story, or recount an experience in an organized manner, using appropriate facts and relevant, descriptive details to support main ideas or themes; speak clearly at an understandable pace. (ELA CCSS)
  • Write informative/explanatory texts to examine a topic and convey ideas and information clearly. (ELA CCSS)
  • Write narratives to develop real or imagined experiences or events using effective technique, descriptive details, and clear event sequences. (ELA CCSS)
  • Elaborate, refine, analyze and evaluate their own ideas in order to improve and maximize creative efforts. (21st Century Skills)
  • Act on creative ideas to make a tangible and useful contribution to the field in which the innovation will occur. (21st Century Skills)
  • Demonstrate originality and inventiveness in work and understand the real world limits to adopting new ideas. (21st Century Skills)
  • View failure as an opportunity to learn; understand that creativity and innovation is a long-term, cyclical process of small successes and frequent mistakes. (21st Century Skills)
  • Solve different kinds of non-familiar problems in both conventional and innovative ways. (21st Century Skills)

Frontloading and Framing the Experience

(For background information about this idea, see Don’t Leave Learning Up to Chance: Framing and Reflection)

To help frontload and frame this activity, participants are given the following scenario:

You have been hired to create the newest, most exciting handheld game to hit the market in years. You can decide the type of game, the population for whom you want to design it for – age range and gender, the goal of the game, the rules, any functions. The sky is the limit but there is one caveat – you need to recycle parts from old handheld games, ones made a decade or two ago, to create your prototype. Here are some questions to consider as you make your prototype –

  • How will you decide what to make?
  • What factors do you need to consider as you make your game?
  • What actions can you take if you get stuck using the tools? Coming up with ideas?
  • How can you ask for help as well as support others during the toy take apart and hacking?

How-To

I like to use the older handheld games as they contain lots of interesting parts and can be bought fairly cheaply in lots through ebay. First, the toys are passed around so participants can examine and learn about them.

Participants select the toy they want to take apart. Using the various screw drivers, scissors, wire cutters, and hammers that have been laid out on a work table, the toys are taken apart as much as they can be taken apart.

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After the participants fully take apart their toys, they are asked to create a new game out of their parts and parts discarded by the other participants. I use hot glue guns but soldering of parts can be done, too.

The criteria that I give to the participants for their game creation includes:

  • The creation must be a new game – one that the participant hasn’t heard of nor played.
  • The parts need to be used creatively – not the same way they were used in the original game.
  • The specifications for the game need to be developed and written as a poster are –
    • Name of the Game
    • Age Level Recommendations
    • The Rules
    • How to Play

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Participants then share their designs with the rest of the group.

Reflection

(For background information about this idea, see Don’t Leave Learning Up to Chance: Framing and Reflection)

After finishing their projects and sharing, participants can reflect on their experiences through:

Through a conversation with other participants; a presentation using Google Slides, Prezi, or Adobe Spark; or a blog post – your choice, address the following questions –

  • Describe the game you made – why did you make that type of game?
  • What changes did you make to your original design? Why?
  • Did you get stuck at any point during the activity? Taking apart the toy? Coming up with a design? Using the tools? Making your game? If so, how did you get unstuck?
  • What will you do the same/differently if you do a similar activity in the future?

More Information

For more information on toy take apart and hacking,  visit http://www.makereducation.com/toy-take-apart.html.

A slideshow of participant engagement in this activity . . .

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Written by Jackie Gerstein, Ed.D.

April 8, 2017 at 8:13 pm

A Framework for Implementing Maker Education Activities Presentation

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I am facilitating two mini-workshops at ASCD Empower 17 and the 2017 ASCD Conference on Teaching Excellence on using a framework for implementating maker education activities. The description for my session is:

Providing a framework for maker activities helps ensure that their use is intentional and that meaningful learning is extracted from these experiences. The educator, using such a framework, becomes proactive in framing or frontloading the maker experiences and in debriefing or processing them to increase the chances that learning occurs. Framing or frontloading is making clear the purpose of an activity prior to actually doing it; it helps to set purpose and intention for the activity. Reflecting on the maker activities can occur through a variety of methods: talking, writing, sketching, and using technology such as Web 2.0 tools and social media. During this interactive presentation, participants will experience this framework through maker activity that is introduced through framing or frontloading and then by directly using reflection techniques upon completion of the activity.

The slides for my session:

Written by Jackie Gerstein, Ed.D.

March 24, 2017 at 4:46 pm

Teacher PD: Purposeful Tinkering and Application

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As a preface to this post, my belief is that deep learning does not occur through sit and get. Deep learning occurs through experiential, authentic, interactive, collaborative instructional processes.  If deep learning is desired for teacher professional development, then it should reflect best practices for teaching and learning.

Professional learning must focus on creating safe and productive spaces for teachers to begin planning and experimenting with the concepts that have been shared. Too often, facilitation centers on giving strategies to teachers rather than coaching them on how to deliver the strategies to students. As a result, teachers leave the session with a toolbox of ideas that are never implemented. Instead, more professional learning time should be spent helping teachers plan, develop materials, and practice delivering the strategies with colleague support. (http://inservice.ascd.org/personalized-professional-development-moving-from-sit-and-get-to-stand-and-deliver/)

When I design teacher PD-related workshops, I am guided by the following principles:

  1. Teachers need time to tinker, play, and experiment with instructional materials and resources especially with new forms of teaching/learning technologies.
  2. For skills development, such as using new technologies, scaffolding and increasing complexity should be a strong component of the PD process.
  3. Teachers need to be offered lots of instructional suggestions and resources so they can tailor their PD learning to their own teaching environments.
  4. Intentional and active reflection and goal setting should be included to increase the chances of transfer of learning.

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Tinkering With Instructional Materials

Teachers and librarians, like their students, need hands-on experience with tools and with playing to learn as that helps them build creative confidence. (https://www.edutopia.org/blog/crafting-professional-development-maker-educators-colleen-graves)

Teachers, during PD, should be provided with time, resources, and materials with which to play. It sets the expectation that they will be active agents of their own learning. It gives them the message it is okay to play and experiment with the materials; that tinkering is often needed as a part of learning new skills.

Scaffolding and Introducing Complexity

As teachers, we have come to learn over the years that we should never expect our students to fully understand a new idea without some form of structured support framework, or scaffolding as the current buzzword defines it.  The same, of course, should be the case in supporting learning for our fellow teachers. (http://mgleeson.edublogs.org/2012/03/10/when-it-comes-to-technology-teachers-need-as-much-scaffolding-as-students/)

Once teachers get familiar with instructional materials and resources through tinkering, they should be guided through a series of skills that are increasingly complex; that honor the process of scaffolding.  As with tinkering, this should be a hands-on process where teachers can try out these skills with facilitator and colleague support and guidance. As confidence is built through success with basic skills and strategies, more complex skills and strategies will be more welcomed by teachers.

Lots of Instructional Strategies and Resources

Even with fairly homogeneous groups of teachers, their teaching and learning needs can be vastly different. They often teach different groups of students, different grades, different content areas. They often have different backgrounds, years of experience, and personal and professional interests. As such, they should be provided with lots of instructional strategies and resources to help them make direct connections to their own teaching environments. Given the plethora and free resources that can be found online, curated aggregates of resources can be provided to the teachers. Time should be allotted during the PD training for them to examine and discuss these resources with their colleagues.

Transfer of Learning Through Reflection and Goal Setting

Reflection is essential for learning. In order to “make meaning” of an experience, the learner must have an opportunity to reflect on or process the experience. To help ensure that program participants transfer learning and training experiences into real-world applications, we must be intentional about both engaging the learners and creating opportunity for meaningful reflection. (https://www.e-volunteerism.com/volume-xvi-issue-1-october-january-2016/training-designs/enhance_learning)

Facilitators of teacher professional development need to be more intentional to include specific strategies to help insure that learning is transferred in teachers’ educational environments. Reflection and goal setting, two powerful transfer of learning strategies, should be built into teacher professional development.

A Recent Example

Because of on my request, my district gifted education supervisor purchased 3 sets/3 dozen Spheros. As a follow-up, he asked me to facilitate a teacher professional development workshop on their use.

The schedule for this afternoon workshop was:

  1. Short Introductory video about Sphero in schools: Gain Attention and Provide a Context
  2. Orienting and Simple Driving the Sphero: Tinkering
  3. Using the Draw Program: Tinkering
  4. Video Tutorial and Practice of Simple Block Programming: Increasing Complexity
  5. Build a Project-Chariot or Tug Boat: Increasing Complexity and Instructional Resources
  6. Review Curricula for Use in the Classroom: Instructional Resources and Transfer of Learning
  7. Final Reflections – Sharing about one’s own processes and possible applications in one’s own classroom: Transfer of Learning Through Reflection and Goal Setting
  8. Email Exchange – for sharing how the use of Spheros are being implemented in the classroom: Transfer of Learning

The slide presentation used and shared with this group of teachers:


Workshop photos showing teacher engagement:

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Design Challenge

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This year I have been focusing on design challenges and design thinking with my gifted elementary students, grades 2nd through 6th. Last semester I introduced a series of activities to have them explore, learn about, and interact with design thinking principles and strategies. For a description of those activities, see https://usergeneratededucation.wordpress.com/2016/09/25/introducing-design-thinking-to-elementary-learners/

To re-introduce design thinking again for this spring semester, this week I asked them to do the Extraordinaire Design Studio:

The Extraordinaires® Design Studio is a powerful learning tool, that introduces children to the world of design, teaching them the foundations of design in a fun and engaging way. Your clients The Extraordinaires® are over the top characters with extraordinary needs, it’s the job of your student to design the inventions they need to fit their worlds. Choose your design client, from a rap star to a vampire teen or even an evil genius plotting in his lair. Look at the exceptionally detailed illustrated character cards to learn more about them, their world and their needs. Once you’ve chosen your Extraordinaire, pick a design project. It could be a communications device for a soldier or a drinks carrier for a circus acrobat. https://www.extraordinaires.com/shop/the-extraordinaires-design-studio-deluxe

To play, the character cards are laid out and then the inventions or gadgets are randomly placed on the character cards. The learners can then select which character/invention pair for which they would like to design.

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After drawing out and labeling their inventions and gadgets, they took pictures of them and posted their images along with a short description on a blog post. Some example learner work follows:

Hoverchair 1.0

TJ selected a hover chair for an astronaut.

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Le Phone

Sebastian selected a communication device for a fairy.

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Bearded Flask

Will selected a drink carrier for a wizard.

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This activity was a high interest, high engagement, high yield instructional task. Some learners had a little trouble getting started but once they did, their designs and inventions were fantastic. I think the fanciful nature of the cards helped engagement. The company has a free app to go along with their set for the designs to be uploaded and described. This app did not do what was promised so I cannot recommend its use.

What I think this type of design challenge does especially well is to introduce the idea that design thinking often encompasses designing a specific type of product for a specific type of client. It does a good job of introducing learners to the core of the design thinking process:

The Design Thinking process first defines the problem and then implements the solutions, always with the needs of the user demographic at the core of concept development. (http://dschool.stanford.edu/redesigningtheater/the-design-thinking-process/)

This set does cost some money but there are other free options:

  • Maker Education Card Game that I created
  • Destination Imagination Instant Challenge

Maker Education Card Game

This game, which I first introduced in the Maker Education Card Game, is a card game that ends with the makers making something based on selected cards. Each maker picks a card from each of the three categories:

  1. The Thing or Process
  2. The Product
  3. The Population.

For example, a maker may choose, Create a Blueprint from The Thing or Process category; a New Toy from the Product category; and Adults from the population category meaning the maker would create a blueprint for a new toy for adults. The educator and makers can choose whether it is a “blind” pick or one in which the makers see their options. (Note – I would love to increase options in all categories. If you have additional card ideas, please leave them in the comments section).

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Destination Imagination Instant Challenges

Destination Imagination offers similar design challenges

The Destination Imagination program is a fun, hands-on system of learning that fosters students’ creativity, courage and curiosity through open-ended academic Challenges in the fields of STEM (science, technology, engineering and mathematics), fine arts and service learning. Our participants learn patience, flexibility, persistence, ethics, respect for others and their ideas, and the collaborative problem solving process. https://www.destinationimagination.org/mission-vision/

Combination Challenge

Randomly choose one or more items from A and one or more items from B, C, D or E and get busy.

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Roll-A- Challenge

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Written by Jackie Gerstein, Ed.D.

January 15, 2017 at 8:10 pm

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