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Mover Kit - The first active wearable that kids make & code by Technology Will Save Us

Mover Kit - The first active wearable that kids make & code by Technology Will Save Us
Risks and challenges Everyone says it; “hardware is hard”. This is true, and we love it! For over three years we have been building a product business with hardware, software and kids at the center of it. We have shipped over 60,000 kits to over 97 countries and have designed a team around making sure we have control and partners to deliver the best end-to-end experience. From the out of the box experience, to our tight supply chain and our customer satisfaction and support. Of course, there is always the real possibility of things going wrong, and challenges do arise – which is why we have an experienced team of product designers, product managers, manufacturing specialists who are passionately building the best process to deliver the best products. We will deliver the Mover Kit with the same detail, quality and robust educational resources as we have become known for. If you have any questions you can always reach out to us MoverKit@techwillsaveus.com Related:  Wearables

LilyPad – PrototipadoLAB Actualmente, existen en el mercado diferentes plataformas de desarrollo que están adaptadas específicamente para trabajar con textiles o materiales flexibles como hilos conductores de electricidad. Las más populares son LilyPad y Flora, que son compatibles o basadas en arduino. Estas placas tienen un gran potencial educativo para desarrollar las competencias del siglo XXI, y acercarnos, por ejemplo, al internet de las cosas. En este post voy a hablaros de la plataforma de hardware libre LilyPad arduino . Imágen obtenida de la entrevista a Leah Buechley: Crafting the Lilypad Arduino. Esta placa, que distribuye Sparkfun Electronics , tiene forma de círculo y ha ido sufriendo mejoras desde que se lanzó en 2007, por lo que en el mercado nos podemos encontrar diferentes modelos que varían según su funcionalidad. Cualquiera de estos modelos te permite crear prototipos e interactuar con sensores ,controlar LEDs o motores. Generalmente, utilizo para mis proyectos Lilypad ATmega328V.

HOW TO GET WHAT YOU WANT This example shows how to construct a “textile” flexible tilt sensor from extremely cheap and available materials. Substituting conductive fabric and a metal bead for aluminum foil. Fuse fusible interfacing to a piece of aluminum foil. Peel off paper backing. Trace circles and traces and cut them out. Trace shape for base and cut out. Arrange layout and begin to fuse foil to base fabric. Crumple ball from a piece of aluminum foil that does not have the fusible adhered to it. Tie knot in conductive thread. Sew through foil ball. Stitch conductive thread to aluminum tab. Front and back images of finished aluminum foil tilt sensor.

Makerspace Project - Make a Light Saber Using Paper Circuits Great STEM Project Making paper circuit light sabers are great for boys and girls of all ages. This is a fun STEM project that shows how circuits work. Get The Paper Circuit Book & Kit To begin, you will need to download & print the light saber paper circuit template. This project works best if you print on both sides of the paper. Below is an example of where we found the setting using our printer. Now we are ready to create the paper circuit that will energize our light saber. Conductive copper tapeTransparent tapeCoin cell battery -3vLEDLilyPad button boardStrawScissors and/or Xacto knife Buy The Paper Circuit Book & Kit Let’s build a circuit ! This is how the copper tape looks around the battery area. Put the coin cell battery on the grey circle area with the negative (-) facing down. Once the battery and switch are in place, use transparent tape to secure them over. Fold the template along the line. Cut the dotted lines. Fold the template and insert the LED legs thru the holes.

Handbook | Making in Michigan Libraries Click here for a sneak peek of our maker handbook, which is almost ready for publication! Makerspace Activity ListA list of many of the possible genres, tools, and materials used in many makerspaces. See what fits for you! Flashlight TemplateWe make these with Scotch double-sided foam tape, 10mm LED bulbs ordered from Tayda Electronics, and CR 2032 3V batteries from The Battery Supplier. Maker Vision TemplateUse this document to help formulate your organization’s collective idea of why you are engaging in making, what needs you are meeting, and what success will look like. Design Game with Words (rev. 6/11/2016)Design Game with Pictures (rev. 6/11/2016)Design Thinking Game Instructions (updated 7/31/2019)These are design thinking tools that we have written to help introduce people of all ages to the process of design thinking. Patronicity Flyer Michigan-based crowdsourcing platform that includes features for offline donations, full- or partial-funding pathways, and extra support.

Paper Circuits For Makerspaces FREE PDF Download – (5) Paper Circuit Project Templates A paper circuit is a low-voltage electronic circuit that is created on paper or cardboard using conductive copper tape, LEDs and a power source such as a coin-cell battery. Creating paper circuits is a good way to teach the basics of electricity and how circuits function. In addition to being educational, they can also be a fun makerspace project that helps to bring artwork and paper craft to life. By adding sensors, buzzers and motors to your circuit, you can also add another dimension of interactivity. These simple projects are great for all ages and all makerspaces. A paper circuit smiley for Halloween! There are a lot of creative and imaginative ways to create a paper circuit. Creating paper circuits is a natural fit for the classroom or library. Making paper circuits to “illuminate” a concept in our course or classroom. More Friday morning fun with paper circuits! There are a wide variety of paper circuit projects you can do.

Maker Ed's Resource Library » Become a Sponsor Disclaimer: Maker Ed’s online Resource Library contains links to third-party organizations, companies, and commercial products. By including these resources, Maker Ed intends to highlight their potential value to the maker education community, rather than to provide an endorsement. The library is independently managed by Maker Ed staff, who adhere to a set of guidelines to ensure that all third-party resources are primarily informational, rather than promotional, in nature. This resource curation process is free from the influence or control of any party outside of Maker Ed.

CoderKids, un laboratorio di programmazione unplugged per i bambini di 5-6 anni – BRICKS CoderKids è un laboratorio di informatica senza uso del computer, nato dall’idea di due insegnanti di scuola Primaria. Ci siamo incontrate in Rete via Twitter (@agaddone, @catemoscetti) poco più di un anno fa; in comune abbiamo la passione per la didattica attiva con la tecnologia. Da anni ci occupiamo, nei nostri rispettivi ambiti di insegnamento (Italiano poi Matematica l’una, L2 Inglese, l’altra), di utilizzare l’informatica per le varie discipline. Poi abbiamo capito che utilizzare la tecnologia non è sufficiente; che i bambini sono generalmente dei semplici fruitori di strumenti e software anche nel loro privato, ma che non hanno mai la possibilità di crearli da soli. Figura 1 – La realizzazione dei pon pon-Fuzzes. Figura 2 – I Fuzzes. Figura 3 – Il tappeto-griglia Dopo aver disposto a terra il tappeto, ogni bambino riceve alcuni gessetti colorati ed un cartoncino con la riproduzione del tappeto-griglia. Figura 4 – Il briefing iniziale. Figura 5 – Le istruzioni per lo script.

DRAWING WITH CONDUCTIVE INK: 4 Steps (with Pictures) AdWords We use AdWords to deploy digital advertising on sites supported by AdWords. Ads are based on both AdWords data and behavioral data that we collect while you’re on our sites. The data we collect may include pages you’ve visited, trials you’ve initiated, videos you’ve played, purchases you’ve made, and your IP address or device ID. LiveRamp We use LiveRamp to deploy digital advertising on sites supported by LiveRamp. UpSellIt We use UpSellIt to help create a more streamlined shopping cart experience. Doubleclick We use Doubleclick to deploy digital advertising on sites supported by Doubleclick. RocketFuel We use RocketFuel to deploy digital advertising on sites supported by RocketFuel. Twitter We use Twitter to deploy digital advertising on sites supported by Twitter. Facebook We use Facebook to deploy digital advertising on sites supported by Facebook. Sprinklr We use Sprinklr to deploy digital advertising on sites supported by Sprinklr. Dstllery Marin LinkedIn Demandbase Yandex AdForm Baidu

Crazy Circuits Crazy Circuits is a non-soldering electronic learning platform that allows people to create circuits from almost any material they can imagine. Crazy Circuits are designed to pop onto LEGO™ bricks, enabling your creations to light up, move, and make noise. Use Crazy Circuits to construct paper crafts with conductive tape, use conductive thread for sewing, sculpt with conductive dough, and create art with conductive inks and paints. Crazy Circuits works on LEGO™, paper, fabric, and tons of other materials. What does it do? We designed Crazy Circuits to interface with all kinds of systems and materials that are already in your home, classroom, or makerspace. At the heart of our most exciting projects is the Crazy Circuits Touch Board. Who is it for? Crazy Circuits is a great tool for anyone trying to get into circuit design and basic programming. Endless Compatibility There’s no need to reinvent the wheel. The Crazy Circuits Touch Board can also be used as a USB keyboard. Color Coordination

Circuits From Scratch | Let’s Put LEDs in Things! Up to this point, we’ve focused on the mechanics of electronics — wiring and soldering — skirting around the theory by following some shortcuts and recipes. It’s sufficient for many folks’ needs. Learning the underlying principles creates opportunities for using other battery types (including rechargeables) and achieving longer run times. Science! Electricity is the transfer of electrons — negatively charged particles in every atom. Batteries A battery houses two complimentary chemical reactions; one producing a surplus of electrons, the other a deficit. Different battery chemistries use different combinations of reactions. Our standard recipe called for three AAA or AA alkaline (single-use disposable) batteries. (In electronics, the technical term for a single battery is a cell. The chemistry of rechargeable Nickel Cadmium (NiCd) or Nickel Metal Hydride (NiMH) cells produces about 1.2 Volts each. Current, Resistance and Ohm’s Law What regulates current? LEDs Notice that’s a maximum.

Tutorial: How to pattern foam costumes Thanks for all the nice comments! I added upper and lower palettes of foam to the head to help define the shape of the muzzle and provide a mouth interior. Covering with fleece: I used polar fleece fabric to cover the Blue Whale. We learned on the Blue Whale that sometimes the "facets" of the foam shapes show through as hard lines under the fleece, so to avoid this and make a smoother shape, cover the costume first with a layer of poly batting. If you're making a small shape and/or you can tell the facets won't show through, you might not have to do this. I used the palette patterns to cut shapes from pink fleece for the mouth interior, and sewed them to the foam with matching thread. Sometimes it's better to finish the mouth interior last, so you can get inside the head easily. Then drape the costume with fleece, and pin it in place. I leave extra around the mouth to fit around the lips. Carefully pin down and trim. Sew seams using small even stitches.

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