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Meet Bobbie robot, built from the pi-top Robotics Kit. Using its camera for color filtering, we can program it to track down and find balls of a certain color. Take a look!
With a pi-top unit and a robot frame built from the Robotics Kit, I show how we can program Alex to follow a blue line path using its camera, servo motors and Python programming.
Third video in the series ... with a built robot frame and your pi-top unit, you can program Alex to drive around and avoid obstacles using Python language.
Second video in the series ... using pi-top and Python programming to activate sensors and components in the Foundation Electronics Kit.
This course is the first of a series focusing on the pi-top unit for using Python programming. Emphasis is placed on displaying its Sirius OS on a board, monitor or computer screen, connecting with a wireless network, and using the built-in Mu application to store, edit and run code.
In this webinar (part one in a series), you will learn about the importance of computer science for K-8 students, as well as some practical examples on how you can get started this school year as a classroom teacher, a library/media specialist, and even a school administrator. Join Bryan L. Miller, Senior Director of Global Strategic Outreach at Wonder Workshop, creators of the Dash, Dot, and Cue robots, as he takes you through ways to get computer science going at your school or district. Bryan is an international keynote presenter and speaker in the areas of computer science, robotics, maker spaces, play, and edtech toys. He has worked with thousands of educators across the world in learning about the importance of computer science and integrating it into the curriculum. The fun doesn’t stop there, as this will be a series of continued webinars covering other topics in Coding in K-8 with Wonder Workshop.
We finish this video series with using two functions within MakeCode. The first function drives the RVR from micro:bit button presses, and the second one assigns the heading numbers to create turns. Let's have some fun driving our Sphero RVR robot around with a micro:bit.
We add a gamer:bit unit to the micro:bit and connect it all together to the RVR. Using MakeCode blocks, we program the RVr to react to the button presses on the gamer:bit so we can drive it around. How about an obstacle course everyone!
This course takes your Sphero RVR programming a step further. We’ll add a micro:bit unit to the robot and use block code to drive the RVR around using the micro:bit buttons. Great for an obstacle course in your STEM program!
Once you are familiar with Sphero’s newest robot, the RVR, you’ll be able to start programming it with Sphero EDU. EDU is both a website and a mobile application where students and teachers can use block programming to take advantage of the RVR’s sensors and movements. Great for any STEM program!
Programming uses a wide range of critical thinking and troubleshooting skills and is a great way to engage our 21st century learners. In this course, learn about some innovative tools and resources to help teach coding practices to your students. Even if you're not a coding expert (yet!), join us to learn how to get your students involved in one of the most popular educational topics right now!
Want to learn how to sort your socks quicker? Didn't expect that type of content on Teq Online PD? We didn't either, but we're excited about it! TRYengineering.org aims to empower teachers to foster the next generation of technology engineers by providing resources and lesson plan materials (and yes, there's one on sorting socks). In this session we'll show you how to implement some of their fantastic lesson plans in your classroom.
The next generation of Scratch is here! Officially launched on January 2, 2019, this new version of Scratch expands the ways students create, learn, and share code. Join us to learn what's new with Scratch 3.0!
The SparkFun micro:arcade kit packs a big punch! This micro:bit extension allows you to write and code games as well as build your own gaming console. Join this session to find out all about the kit and how to get started with building games in MakeCode.
With littleBits, students are encouraged to think outside the box and embrace their creativity. Join us to learn how littleBits can work to promote hands-on learning experiences and collaboration. Students are encouraged to be creative and invent, all while gaining a new understanding of STEM principles, and developing useful classroom tools.
Did you know pi-top can be used to learn Python in a multitude of ways? In our new four-part series Learning Python with pi-top, we are going to show you how – and share some big secrets! In our first session, we’ll discuss the fundamental concept of Python, data types, and the many resources the pi-top has to learn them. Join us as we dive into Python integrated development environments (IDEs) like IDLE, pi-topCODER, and documentation tools like LibreOffice and Microsoft Word!
Welcome to session two of our Learning Python with the pi-top series! In this session, we’ll give you an example workflow for how to talk about and teach data structures to your students. We’ll start with a Scratch example on creating lists, and then we’ll move into suggested pi-topCODER worksheets. Finally, we’ll wrap up with a great example using IDLE. This is a session you won't want to miss!
Why did the turtle cross the road? Well, probably to attend our Python session… but what’s more important is HOW the turtle gets to the other side of the road. Session three of Learning Python with the pi-top is all about control flow. We’ll show you how to use a classic computer programming application called Turtle Art (hint: it comes pre-installed on your pi-top). Join us to gather resources for teaching control flow with the pi-top that includes turtles and so much more!
Are you ready for the final session in our four-part series Learning Python with the pi-top? If you've followed the course series, you know that we’ll be suggesting a functional workflow for teaching Python concepts and functions in your classroom – all on the pi-top. Join us as we dive into some unplugged activities, suggested pi-topCODER worksheets, and an IDLE example on functions!
Looking for ways to motivate your hands-on learners in Computer Science? The Digital Sandbox is a nifty device that engages both the hardware and software worlds. Powered by a microcontroller, Sparkfun's Digital Sandbox interacts with physical inputs, light, and temperature sensors. Programmed with the popular Arduino programming environment, your students can use the Digital Sandbox to control LEDs, detect sound, power motors, and more! Don't worry - no actual sand required.
Your micro:bit might be micro, but there's more to it than meets the eye! Join us as we introduce you to this adorable device used to learn programming and coding. By the end of this session you'll be able to create and download code, and to complete a CS4ALL micro:bit activity.
Did you watch our Intro to Scratch course? Did it leave you wanting more? Or maybe your already using Scratch in your classroom and you want to take it to the next level. Whatever the case this course will help you get there! Join us as we explore more of the scripts that Scratch has to offer and create more complex code!
Using a Pulse unit and connecting it to your pi-top unit, you can light up colored pixels in the 7 X 7 grid and do some amazing things with Python code. Take a look!
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