 Hey what's up folks, in this video we're taking a look at Whipper Snapper with the new Adafruit QT Pi. Whipper Snapper now has support for Adafruit's newest Wi-Fi board, making it one of the easiest ways to do IoT projects. The Adafruit QT Pi now comes in a new flavor featuring the ESP32S2. It can also run both Arduino and CircuitPython. Here's how to set up the QT Pi ESP32S2 with Whipper Snapper and Adafruit IO. Go to the quick start guide and scroll down to the installation page. In the download section, click on the download button to launch the release page on GitHub. Scroll down and look for the UF2 file for the QT Pi ESP32S2. Double press the reset button to get the board into bootloader mode. The new pixel will turn green when it's ready. Then just drag and drop the UF2 file onto the USB drive to automatically flash the firmware. Using your favorite text editor, you'll want to edit the SecretsJSON file with your Adafruit IO and Wi-Fi credentials. Then hit the reset button once again to get the board connected to your Wi-Fi router. In Whipper Snapper, the device is automatically detected and you'll have the option to rename the device. You can easily connect this temperature and humidity sensor using Stema QT. In Whipper Snapper, click New Component and select the AHT-20 Sensor. Then select how often you want to send or receive data. And that's it! You can see the raw values in the device page and start logging data in a dashboard. You think it's the quickest and easiest way to get your IoT projects up and running. We designed and 3D printed a snap fit case to house the QT Pi and a Stema QT breakout board. The bottom cover has a built-in holder for the QT Pi that can be secured without any screws. Just insert the board at an angle and slightly bend to snap fit the PCB into the corners. It's easy to plug in a Stema QT cable on the back of the QT Pi and connect the sensor without having to solder. You can use M25 hardware to secure the Stema QT board to the case. The top cover has several vents that can be used as mounting holes so you can secure the board in different orientations. The bottom cover features similar slots so you can mount it to either the top or bottom. There's also mounting tabs on the case so you can use them to attach it to another surface. Just snap fit the case over the cover with the opening lined up with the USB-C port. It's really modular so you can easily customize it to fit your project. Thanks so much for watching and don't forget to subscribe for more projects from Adafruit.