Loti-Bot is the newest member of the TTS-Bot family. It has programmable movements, high-precision drawing functions and a variety of sensors, actuators and processors. It supports students in the playful exploration of computer science and computational thinking. It is an ideal size for working in groups of two to three students. Loti has a pencil holder and the ability to make high-precision drawings, for example, to support arithmetic lessons. The set includes Loti-Bot, the USB cable and a start-up guide.   It has: Light sources that shine in different colors (you specify the proportion of RGB tones with numbers to make a color). A microphone to receive sounds and a loudspeaker to reproduce sounds  20 pre-programmed sounds  2 types of sensors: Distance measurement sensor and the Cliff sensor A button to turn off the sound Two buttons at the back, which react to pressure A thermometer to measure the temperature and brightness the ability to recognize other robots  different programming levels An on and off button To control the Loti-Bot, you need the app, which is available on both Android and Apple.  Flashing Meaning Red: Battery is empty  Orange: Battery is not fully charged Green: Battery is fully charged

Schüler:innen lernen spielerisch die Grundprinzipien eines Elektromotors kennen, indem sie in kurzer Zeit einen funktionierenden Motor eigenhändig zusammen bauen (Montageanleitung). Die 15 Einzelteile werden in einem Pappkarton (Länge: 12,5 cm, Breite 7,5 cm, Höhe 1,5 cm) geliefert, dessen Deckel gleichzeitig zum Aufbau des Motors dient und mit Anleitung hierfür bedruckt ist. Der Aufbau auf ein Holzbrett oder Plexiglas ist ebenfalls möglich. Das fertiggestellte Modell läuft mit Hilfe einer 4,5 Volt Flachbatterie. Dieser Bausatz Elektromotor ist ein naturgetreues, funktionierendes Modell eines Elektro-Motors und somit das ideale Hilfsmittel für den Technik- und Physikunterricht. Lehrkräfte und Schüler:innen sind gleicher Weise von diesem verblüffend einfachen, interessanten und lehrreichen E-Motor begeistert. Die Schüler:innen lernen spielerisch die Grundprinzipien eines Elektromotors kennen, indem sie in kurzer Zeit einen funktionierenden Motor eigenhändig zusammen bauen (Montageanleitung vorhanden). Ohne Batterie

The expansion board comes with 6 fool-proof 3-Pin sockets, compatible with hundreds of DFRobot’s Boson and Gravity modularized electronic blocks, covering most popular digital and analog sensors and actuators, supporting sound, light and motion interaction. Moreover, the on-board 3.5MM headphone jack and volume knob supports direct connection of headphone. To ensure a steady current supply for these peripherals, the expansion board can be powered externally through the USB power port.  

This board can be a cool clock, a timer, a Lucky Turntable Game, a wearable ornament, and an interactive colored pendant. With a micro:bit main board, this 24 RGB LEDs circular expansion board changes to an exquisite creator's piece. You can turn it into a tomato timer via the onboard buzzer, and turn it into a colorful music spectrometer through the onboard microphone; There are two external ports P0, P1 in reserve, so you can get more ways to play by connecting a large number of boson and gravity sensors. With different paper-cuts and acrylics, you can put on a variety of new clothes for the expansion board. For example, put on red Chinese knot for it in Chinese New Year, put on the cartoon face for it at Children's Day, put on the snow or Christmas tree for it at Christmas. FEATURES Support USB interface power supply and direct use of power-bank power supply or USB computer power supply. Support PH2.0 interface power supply and the battery box or lithium battery power supply are both OK. 24 RGB single-line lights, 16 million colors free mixing Makecode graphical programming Onboard microphone and buzzer Leaded out P0 and P1 interfaces, and distribute with the connection line, support the boson expansion modules. Ultra-thin volume,more suitable for wearable and strap applications.

Beschreibung Der LED-Wechselblinker-Bausatz mit Potenziometer und mit zwei 5mm LEDs besteht aus einem astabilen Multivibrator. Multivibrator bedeutet Vielfachschwinger, was auf eine Schaltung hinweist, die ohne äusseren Anstoss frei schwingt. Nach Anlegen der Batterie beginnen die LEDs abwechselnd zu blinken. Mit einem Poti lässt sich die Blinkfrequenz einstellen.  Der LED-Wechselblinker -Bausatz mit Poti und mit gebohrter Leiterplatte enthält alle elektronischen Bauteile für 1 Schüler:in mit einer Funktionsbeschreibung, Bauanleitung/Bauplan mit Schaltplan. Die Bauteile sind pro Bausatz in je einem PVC-Beutel verpackt Stückliste 1 Leiterplatte gebohrt 4 Widerstände 2 Transistoren 2 Elkos 2 LEDs 5mm 1 Trimmpoti (Einstellwiderstand) 1 Diode 9V-Batterie-Clip 1 Bauanleitung DIN A4 Nicht enthalten: 9V-Batterie. Technische Daten Betriebsspannung: 4,5-12V/DC Stromaufnahme: 30mA Abmessung: (L xB) 50mm x 40mm Allgemeines  Der Bausatz hat eine gebohrte Leiterplatte mit geätztem, verzinntem Leiterbild. Alle Bauteile des Bausatzes sind in Industriequalität und pro Bausatz in einem PVC-Beutel verpackt. Benötigtes Werkzeug: Lötkölben ca. 30 Wattt, Lötzinn, Seitenschneider (Elektronik Schere HT109). Hinweis:  Alle Komponenten dieses Bausatzes (Ersatzteile) können auf Nachfrage auch einzeln bezogen werden.

The Kitronik Halo HD board for the BBC micro:bit incorporates 60 individually addressable full colour ZIP LEDs. It also breaks out P1 and P2 to a standard 0.1” footprint, it features a MEMS microphone for detection of sound, and a piezo buzzer to play sound. If that weren't enough, it also features an onboard real time clock (RTC) controlled by I2C lines from the microbit. The board also has two M3 mounting holes. We think you'll agree, the board is loaded with useful features. It doesn't stop there... Plug n Play: No tools required, not even a screwdriver, plug the micro:bit straight into the onboard edge connector and you are good to go! Onboard Power: The board has a 3xAA battery holder mounted on the rear, with a power switch on the front of the board. A regulated supply is produced on the board which is fed into the 3V and GND connections to power the connected BBC micro:bit, removing the need to power the BBC micro:bit separately. See the Datasheet for more information. MakeCode Blocks: Kitronik have created custom blocks for the Halo HD for use with MakeCode. To add these blocks, first go to makecode.microbit.org and start a new project. Under the “Advanced” section click on “Extensions”. In the next window search for “Halo HD”. Then, click on the tile to import it into MakeCode. You will see that the blocks are split across three categories; ZIP LEDs, Microphone and Clock. You can find more information on the MakeCode editor and also on how to write code for it with MicroPython in the Datasheet. Examples: To get you off to a flying start we have produced a number of code examples that cover all of the onboard features and that will also serve to inspire your own projects. You will find links to these examples in the resources section below. Features: The board features 60 individually addressable full colour ZIP LEDs. It breaks out P1 and P2 to a standard 0.1” footprint. It's wired for sound with a MEMS microphone and a piezo buzzer. It has an onboard Real time clock (RTC) controlled by I2C lines. Plug n play with the onboard edge connector, no tools required!. The board has a 3xAA battery holder mounted on the rear. The On/off switch helps you maximise battery life. It can be coded with MakeCode blocks via our custom blocks or with MicroPython. 2 x M3 Mounting holes, for secure projects. Contents: 1 x :VIEW ZIP Halo HD Board for micro:bit. Dimensions: Diameter: 87mm. M3 Mounting Holes Spacing (Center to Center): 68.4mm.

Der Oxocard I2C Hub ist ein kleiner Bausatz, um der Oxocard relativ einfach das Anschliessen von beliebigen I2C-Grove- Komponenten zu ermöglichen.  Mit diesen I2C-Hub kannst du die Oxocard mit zusätzlichen GROVE-kompatiblen Sensoren und Aktoren erweitern. Aktuell unterstützen wir die Funktionen nur über unsere Python-Programmierumgebung. Detaillierte Beispiele findest du hier: http://www.tigerjython4kids.ch/iot Hier kannst du direkt die Bauanleitung runterladen    

You can find the wireless version here.   How about taming a robot? Thymio is a small robot which will allow you to discover the universe of robotics and learn a robot's language. You will be able to program it and carry out numerous experiments. With Thymio, the basics of robotics and programming become notions everyone can discover, whatever their age. Important notes - updated 26.06.23------------------------------------------------------------ When programming with Scratch, the cable must always remain connectedWe recommend the language Blockly as an alternative -------------------------------

Description The MonkMakes Sensor Board allows you to detect sound levels, temperature and light levels. It features ring pad connectors for use with crocodile clips make it easy to connect to the board to a microbit. Sound Level:It senses sound level with a MEMs, which is a microphone on a chip that also features a pre-amplifier circuit. You can then use the plot bar graph block in the Microsoft MakeCode editor to display the result on the microbits LED matrix. Temperature Level:The temperature output from the board is a voltage that indicates the temperature. This is then measured using an analog input on the micro:bit. If you want your temperatures in Fahrenheit, then multiply the temperature in degrees C by 9, divide the result by 5 and then add 32. Light Level:The light sensor uses a photo-transistor to measure the light level and produces an output voltage that increases as the light level increases. It has 3V and GND connectors on both sides of the board which make it possible to power another board, such as the Relay Board or Powered Speaker Board. Features: 3V and GND connections can be made from either side and allow you to power a second board such as the MonkMakes Relay Board or MonkMakes Speaker. LED ‘power on’ indicator. Reverse polarity protection. All three sensors are analog and can be connected to pins P0, P1 and P2 using alligator clips. Detects sound level with a MEMs (microphone on a chip) and a pre-amplifier. Uses a thermistor to measure temperature. Light level detection with a photo-transistor (0 to 1023). All three sensors are analog and can be connected to pins P0, P1 and P2 using alligator clips. Contents: 1 x MonkMakes Sensor Board for the BBC micro:bit.

A remote controller designed for Thymio! It will allow you to drive it in its purple pre-programmed behaviour, the "Obediant". You will also be able to program Thymio so that it does more complex actions.

GamePad for microbit V3.0 is a micro: bit gamepad with a joystick. It adopts a high-precision three-axis analog amount joystick. The combination of joystick and gamepad allows you to control Maqueen's direction and speed at the same time. Moreover, there are 7 programmable buttons, which means you can explore more interesting functions and more flexible controls. In the latest V3.0 product, we have put the external battery box to onboard PCB, which is more convenient to use. Included: micro:bit Wireless Gamepad x1

This is the LilyPad USB Plus, a sewable electronics microcontroller board controlled by an ATmega32U4 with the Arduino bootloader. It has a built in power supply JST (and recharge circuit) and an on/off switch with the only extra piece of hardware you need to program the LilyPad USB Plus being a micro-USB cable. We’ve also added an RGB LED in the dead-center of the board along with six white LEDs to act as a sort of bar graph. The LilyPad USB Plus was designed to streamline your next sewable project by keeping things simple and giving you more room to work while eliminating the need to sew a power supply. It has fourteen sew tabs for connecting components with conductive thread. Four of these tabs are reserved for connecting power and ground of LilyPad sensors and accessory boards, and ten are input/output (I/O). For reference, each sew tab has a nearby label with its name and the pin number it is connected to on the ATmega32U4 chip at its center. LilyPad is a wearable e-textile technology developed by Leah Buechley and cooperatively designed by Leah and SparkFun. Each LilyPad was creatively designed to have large connecting pads to allow them to be sewn into clothing. Various input, output, power, and sensor boards are available in the LilyPad line but will also work with most other wearable e-textile lines. They’re even washable! Please be aware that the Lilypad USB Plus is NOT supported on Windows 7/8 due to a lack of support drivers for those specific OS’s. Note: A portion of this sale is given back to Dr. Leah Buechley for continued development and education in e-textiles.

The Grove Temperature and Humidity sensor is a digital relative humidity and temperature sensor with a small footprint that features a grove system connector. It utilises a TH02 sensor that has a good level of accuracy when used in non extreme climates/conditions. It provides accurate humidity readings from 0-80% (±4.5%) and accurate temperature readings between 0-70°C (±0.5°C). Both the temperature and humidity sensors are factory-calibrated, so no calibration is required. It has an operating voltage of between 3.3V - 5V and has high reliability and stability and requires an I2C Grove compatible interface. Features: It provides accurate humidity readings from 0-80% (±4.5%) and accurate temperature readings between 0-70°C (±0.5°C). Wide operating voltage range:(3.3V ∼ 5V). Low Power Consumption. Good reliability and stability. It operates as an I2C device. It is factory-calibrated, so no calibration is required.

Discover Thymio with the Yeti and its Discovery Map. Alone or with your family, try all the challenges! The Map can be used without any programmation and will also inspire you for your first codes with images (VPL). The Yeti Discovery Map is composed of a big paper poster (A1 format) and of a user manual. This Discovery Map will allow you to discover the six pre-programmed behaviours of Thymio. Moreover, it will initiate you to the Visual Programming Language of Thymio (VPL).  This Discovery Map is ideal for your first encounter with Thymio but not only. This Map is filled with small challenges and games to do with your robot. The Map is printed in A1 format (594 x 841 mm). The poster is folded and is shipped with an user manual in A4 format. Suitable for children from and above 6 years old.

Die LEGO-Konnektoren erweitern Dash um tolle neue Spielmöglichkeiten. Die Konnektoren können bei Dash an sechs Anschlussstellen angebracht werden und Deine Kinder können ihren Roboter ganz nach Belieben mit LEGO-Steinen verwandeln. Jede Packung enthält vier Konnektoren, die auf einfachste Weise mit Dash verbunden werden können. Inhalt: 4x LEGO-Konnektoren

This battery holder is designed to hold 6 AA batteries. It has LEGO NXT/EV3 compatible mounting to integrate it into your LEGO contraption easily.

This pre-built Edge Connector Breakout Board for the BBC micro:bit gives access to all the important pins on the bottom edge of the BBC micro:bit. Looking to do more with your BBC micro:bit? Unlock its potential with this pre-built version of our Edge Connector Breakout Board! This breakout board has been designed to offer an easy way to connect additional circuits and hardware to the pins on the edge of the BBC micro:bit. It provides access to all of the BBC micro:bit processor pins allowing a lot of extra functionality to be added. The datasheet (below) includes a helpful diagram explaining the function of every pin on the BBC micro:bit. This Edge Connector Breakout Board for the BBC micro:bit gives access to all of the important pins on the bottom edge of the BBC micro:bit. 21 pins are broken out in total; providing additional I/O lines, direct access to buttons A and B, the LED matrix outputs and the I2C bus. Please refer to the datasheet below for more details.  The BBC micro:bit pins are broken out to a row of pin headers. These provide an easy way of connecting circuits using jumper wires. The SCL and SDA pins are separated at the edge of the board (solder pads) providing easy identification. The PCB includes a prototyping area with 3V, 0V and unconnected rows that can be soldered to. This allows the easy connection of switches, sensors and any pull-up or pull-down resistors etc. as required. To use the breakout board the BBC micro:bit should be inserted firmly into the connector as shown below:

Add some colour to your next coding project with our new Halo board for the BBC micro:bit. The Halo has 24 ZIP LEDs, which are individually addressable full colour LEDs. This means that each LED can display a huge spectrum of colours, allowing amazing colourful effects to be achieved.  The Halo bolts directly onto the BBC micro:bit using five bolts which are secure and robust. The board also has extension connector pads (0.1 pitch) allowing more ZIP LEDs to be connected. The P1 and P2 micro:bit pins are also broken out to 0.1" pads along with power and GND. This allows for additional connections to low power components such as sensors and switches. The Halo takes a supply voltage of 3.5V-5V and provides a regulated power supply to BBC micro:bit. Power can be connected using the JST input using a 3xAAA battery holder, or LiPo battery, or JST lead. Alternatively you can solder a power supply directly to the solder pads on the PCB. The LEDs used are based on the WS2812B part which is compatible with any WS2812B driver code. They can also be coded in the MakeCode Block/Javascript editor. Features: Halo has 24 individually addressable ZIP LEDs. Compatible with Adafruit NeoPixel and other WS2812B driver code. Supply voltage: 3.5V to 5V. Halo bolts directly onto the BBC micro:bit. The board also has extension connector pads. Contents: 1 x Halo for the BBC micro:bit. 5 x Counter Sunk M3 x6mm Screws. Dimensions: Diameter: 80mm. Height: 3.2mm Height With micro:bit: 10mm. PCB Thickness: 1.5mm.

This is a Li-ion Battery Holder specially designed for micro: bit educational robot Maqueen. It can be used to hold a CR123A 3.6V lithium rechargeable battery to provide more than 8 hours continuous power for Maqueen. Using this environment-friendly product, you can save about 200 batteries in one year.This Li-ion Battery Holder integrates charging circuit and MicroUSB interface, freeing users from purchasing extra charger. Meanwhile, we set over-current and reverse connection protection for it to improve the safety in using Li-ion Battery. SPECIFICATION Charging Voltage: 4.5-5.5V DC Charging Interface: USB Output Voltage: 3.5~4.2V DC Reverse Connection Protection Over Current Protection Charging Current: 350mA Dimension: 56×32mm/2.20”×1.26” SHIPPING LIST CR123A Li-ion Battery Holder(V1.0) x1 Screw x4 Copper Column x4 Connecting wire x1 Double-side Adhesive Tape x1

Was ist das Neuron Artist Kit?Das Neuron Artist Kit ist ein Team programmierbarer elektronischer Blöcke, die Kindern helfen sollen, spielerisch künstlerische und codierende Fähigkeiten zu entwickeln. Das Kit enthält 8 elektronische Blöcke (Tonsensor, LED-Streifen, Entfernungssensor und mehr) und 6 Packungen mit Papierausschnitten. Mit diesen Materialien können Kinder ganz einfach lustige Dinge herstellen, wie eine Ukulele, eine Marimba, eine leuchtende Uhr, ein LED-Schwert und eine Trommel. Das Kit ist mit 2 kostenlosen Begleitsoftware kompatibel: Neuron-App (flow-basiert) und mBlock (basierend auf Scratch 3.0). Außerdem enthält es eine Fülle von Schritt-für-Schritt-Tutorials, die Kindern helfen, das Programmieren zu erkunden. Das Neuron Artist Kit gibt Kindern die Möglichkeit, künstlerische Projekte zu erstellen, und lässt sie wissen, wie viel Spaß es machen wird, das Programmieren wie ein Künstler zu lernen! Merkmale Sechs Projekte, erstellen Sie wie ein Künstler Die Companion Six 6-Kartonmodelle wurden entwickelt, um Kinder zu inspirieren, wie ein Künstler zu schaffen. Mit den Pappmodellen ist der Einstieg recht einfach. Ohne großen Aufwand können Kinder ihre praktischen Fähigkeiten leicht verbessern, indem sie Projekte wie eine Ukulele, eine Marimba, eine leuchtende Uhr und eine Trommel bauen. Magnetisches Design Alle Neuron-Module haben eine magnetische Rückseite, sodass sie auf flachen magnetisierten Oberflächen wie Whiteboards oder Kühlschränken gehalten werden können. Lehrer und Eltern können sie verwenden, um Kinder entweder im Unterricht oder zu Hause zu unterrichten. 8 elektronische Blöcke und Anleitungen, Master Science Through Playing Jeder Block wird mit einer Anleitung geliefert. Die Anleitung erklärt Kindern, was die Arbeitsprinzipien sind, wie der Block nützlich ist und wie der Block zu codieren ist. 8 programmierbare Elektronikblöcke mit unterschiedlichen Funktionen. Durch einfaches Verbinden der Blöcke gemäß Anleitung können Kinder interaktive Projekte erstellen und die Grundlagen von Sensoren und Wissenschaft beherrschen. Videoanleitungen, Als Anleitung erstellen Das Neuron Artist Kit bietet Videoanleitungen für die Beispielprojekte. Folgen Sie den Anleitungen und erstellen Sie Ihre eigenen Projekte, die ansprechend und einzigartig sind. Nutzen Sie alle Materialien zur Hand. Mal sehen, wohin Ihre Fantasie Sie führen kann! Pogo-Pin-Steckverbinder, Kreativität im Handumdrehen Das magnetische Pogo-Pin-Design macht es einfach, Blöcke miteinander zu verbinden. Sie müssen sich keine Sorgen mehr machen, dass Blöcke möglicherweise umgekehrt verbunden sind. Versuchen Sie jetzt, verschiedene Kombinationen der Blöcke zu erstellen, um Ihre eigenen Projekte zu erstellen! Oder möchten Sie vielleicht vorhandene Materialien verwenden, um Neuron Fähigkeiten hinzuzufügen? Wie wäre es, wenn Sie sich eine Sprachsteuerungslampe machen! 2 Kostenlose Companion Coding Software, Programmieren auf künstlerische Weise lernen Beginnen Sie mit der flussbasierten App – Neuron: Verwenden Sie die Neuron-App, um Ihre Neuron-Projekte zum Leben zu erwecken. Die App unterstützt flussbasierte Programmiersprache, sodass Sie lediglich Blöcke ziehen, Symbole antippen und Knoten verknüpfen müssen. Die App verfügt über integrierte Bauanleitungen und Codierungs-Tutorials. Kinder können die Ergebnisse ihres Codes in der realen Welt sehen und den Code basierend auf dem, was sie sehen, schnell verfeinern. Fortgeschrittenes Lernen - blockbasierte und Python-Codierung: Neuron ist mit mBlock kompatibel, einer Software, die auf der Grundlage von Scratch 3.0 entwickelt wurde. mBlock unterstützt eine blockbasierte Programmiersprache und macht das Codieren so einfach wie das Erstellen von Blöcken. Kinder können Neuron programmieren, um spannende Geschichten, Spiele und Animationen zu erstellen. Was noch besser ist, ist, dass Sie mBlock verwenden können, um die Geheimnisse der KI zu erforschen !!!

    LEGO® Education «SPIKE™ Prime» The LEGO® Education SPIKE™ Prime Set is the go-to STEAM learning tool for grade 6-8 students. Combining colorful LEGO building elements, easy-to-use hardware, and an intuitive drag-and-drop coding language based on Scratch., SPIKE Prime continuously engages students through playful learning activities to think critically and solve complex problems, regardless of their learning level. From easy-entry projects to limitless creative design possibilities, SPIKE Prime helps students learn the essential STEAM and 21st century skills needed to become the innovative minds of tomorrow... while having fun! The heart of the SPIKE Prime system is the programmable Hub. This advanced yet simple-to-use, brick-shaped device features 6 input/output ports, 5x5 light matrix, Bluetooth connectivity, a speaker, 6-axis gyro and a rechargeable battery. The SPIKE Prime Set also includes highly accurate motors and sensors that, together with a large variety of colorful LEGO building elements, let students design and build fun robots, dynamic devices and other interactive models. Many attachment points on the Hub, motors and sensors plus new, large building elements means students spend less time building and more time learning. The durable storage box and 2 sorting trays also means time spent setting up and clearing away is kept to a minimum, while the smaller trays are ideal when desk space is limited. The intuitive coding environment for tablets and computers takes the best elements from the popular coding language based on Scratch, creating a system that teachers and students will love. In addition to Getting Started Material, the app comes with 3 unit plans of curriculum-aligned STEAM content focusing on Engineering and Computer Science. Optimized for 45-minute lessons, these units accelerate STEAM learning by consistently engaging students to think critically and to solve complex problems, regardless of their learning level. Comprehensive online lesson plans with a wealth of accessible, interactive support material gives teachers everything they need to deliver lessons with confidence, whatever their previous experience.   * Important notice regarding LEGO® Education SPIKE™ Prime ( Art. No. 45678): Due to extraordinary shortages in LEGO's production facilities, LEGO® Education SPIKE™ Prime sets are temporarily out of stock. According to LEGO, first deliveries will not be possible again until early 2023. Prices are subject to change.

The Neuron Explorer Kit is a new-generation Makeblock product that comes with a variety of programmable electronic blocks. It includes 12 electronic blocks (sound sensor, light sensor, smart power, temperature sensor, etc) and 4 craft materials packs. Using these materials, children can quickly build up five different items, like a car or a piano. What’s even better is that children can code the items to do incredible things using multiple programming languages, like flow-based code, Scratch or Swift. And bundled with game-based tutorials, the Neuron Explorer Kit helps users to explore the world of code in a fun way. • 4 Cutout Creations and 12 Electronic Modules Available for DIY Creations The kit comes with 4 cutout projects and 12 electronic modules that are easy to get started with. With these materials, children can make a variety of creations, including Explorer Transformer Car, Robot, LED Sword, Piano and Ukulele. • Interactive Blocks Used to Explore Science Concepts The kit includes 12 electronic modules in total, including Ranging Sensor, Light Sensor, Sound Sensor, LED Strip, Buzzer and more. Each module has its specific preset interactive gameplays, which means children can simply combine the blocks to do plenty of things without programming. Creation are made easy and children are given freedom to create as they would like. During the process, children can easily master the working principles of these electronic blocks and basic science concepts. • Compatible with Swift Playgrounds Learn Coding at Home The Neuron Explorer Kit has 30+ game-based courses specially designed for Swift Playgrounds. The courses cover four sections, Intro to Modules, Interactive Games, Building Projects and Coding Challenges.Following the instructions to learn about the Neuron modules, build cutout projects and master the basics of Swift coding in games. In the software, children can program the Neuron gadgets to do lots of things, for instance, controlling the car to drive as they would like or programming the piano to play different songs. • 2 Block-based Programming Software Make Coding Easy to Pick Up Begin with flow-based coding - Neuron: Use the Neuron app to bring your Neuron projects to life.The app supports flow-based programming language so all you need to do is dragging blocks, tapping icons and linking nodes. And the built-in guides are there helping children get started with coding. Children can see how their programs work in the real world so they can quickly refine the code based on what they see. Advanced learning - block-based and Python coding: Neuron Kit is compatible with mBlock (developed based on Scratch 3.0). mBlock supports block-based programming language, making coding as easy as blocks building.You can program Neuron to create your own stories, games and animations. What's even better is that you can use mBlock to explore the mysteries of AI! • Create with IoT, Have Fun with Hi-Tech To bring the Neuron app into the IoT, you just need to take 3 steps. For example, you make a lamp and manage to complete your programs. You can share your programs with friends so that they can control the lamp even when they are miles away. • Follow Building Tutorials and Gameplay Tips to Make Creations Built in Neuron app：Step-by-step building tutorials; 26 tasks help beginners develop logical thinking. Built-in Swift Playgrounds：30+ game-based coding tasks help children master the basics of Swift coding.

HaloCode ist ein drahtloser Einplatinencomputer. Mit der integrierten Wi-Fi-Unterstützung und dem Mikrofon können die Schüler:innen Ihr Board problemlos in die IoT-Projekte einbringen und Spracherkennungsfunktionen hinzufügen. Es wird mit zahlreichen Sensoren geliefert, zm Beispiel, ein Berührungssensor und mehr. Die begleitende Software mBlock 5 erleichtert den Einstieg in HaloCode und das Erlernen des Programmierens. Mit HaloCode kann jeder auf einfache und unterhaltsame Weise seine eigenen Kreationen erstellen! Mit integriertem Wi-Fi war die Erstellung eines IoT-Projekts noch nie so einfach a. Mit dem eingebauten Wi-Fi-Modul kann der Schüler:innen HaloCode und mBlock 5 verwenden, um auf einfachste Weise intelligente Geräteplattformen und IoT-Modelle zu erstellen, wie z. B. die Fernsteuerung von Haushaltsgeräten. B. Die Mesh-Netzwerktechnologie ermöglicht es, dass zwei oder mehr HaloCodes miteinander kommunizieren. Auf diese Weise können Schüler:innen HaloCode viele weitere Dinge tun lassen, z. B. ein Tisch-Drum-Pad. Setzt Schüler:innen KI-Technologien wie Spracherkennung aus HaloCode verfügt über ein eingebautes Mikrofon, mit dem es die Stimme erkennen kann. Und der Cloud-Speicher und die Wi-Fi-Funktionen geben den Schüler:innen die Freiheit, einzigartige Projekte auf der Grundlage des Spracherkennungsdienstes zu erstellen. Egal, ob Sie ein Sprachinteraktionsspielzeug herstellen oder ein sprachgesteuertes Smart Home einrichten, HaloCode ist genau das, wonach Sie suchen. Eingebaute Sensoren machen HaloCode zum Multitalent HaloCode hat 12 RGB-LEDs, einen Berührungssensor, einen Bewegungssensor und mehr. Die Schüler:innen können sie verwenden, um eine interaktive Regenbogenlampe zu bauen, Bewegungserkennungsspiele zu erstellen, mit den Sprites von mBlock 5 zu interagieren und sogar selbst Armbänder zur Bewegungsverfolgung herzustellen. Unterstützung für echtes Multithreading Ausgestattet mit 4 MB Speicher und einem integrierten, leistungsstarken Xtensa-Dual-Core-32-Bit-LX6-Mikroprozessor ist der 45 mm grosse HaloCode in der Lage, mehrere Prozesse oder Threads gleichzeitig auszuführen. Es spielt keine Rolle, wie viele Programme Sie schreiben, mit HaloCode können Sie sie einfach gleichzeitig ausführen, was mit Micro:bit kaum möglich ist.

The set of 72 physical Challenge Cards progresses students through each coding level’s programming concepts. For each card, one side tells a story about Dash and/or Dot. The other side then provides a set of instructions that walks students through the completion of a coding challenge. The Challenge Card Set includes:  72 Sequenced Coding Cards   Story-driven on one side and the coding directive on the other What is so great about these Challenge Cards? Available in English and German language Only English comes in a carton box. Each card gradually increases in difficulty and complexity level Provides clear instructions paired with engaging visuals through creative stories and objectives Enhances, both, the fun while playing and the learning of coding fundamentals Integrated with the Wonder Workshop Curriculum Guide + Learn to Code Lesson Plans Aligns with Code.org Course Levels Meets the standards of Computer Science Teachers Association & International Society for Technology in Education Standards