STEM Packages - Nexgen Aerials

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E-mail: info@nextgenaerial.com

Understanding NextGen STEM Packages

Our drone packages are designed to easily suit your educational entities interested in starting or expanding a Drone Robotics Program.

These packages feature the Micro™ Training Racer.

Due to FAA regulatory limitations and required skill level, larger and more powerful models up will ONLY be available to educational entities after purchase of the Micro™ OR signing a release waiver.

Pricing for Advanced Educational packages are available upon request
All kits, small or large are Ready-To-Assemble (RTA) and include all necessary components for assembly and flying.

Components of an Educational Kit

Everything you need to get your new robotics program off the ground

Ready-To-Assemble (RTA) Kit Components

Each drone kit comes with everything necessary to build and operate one (1) drone.
1 Lithium Battery Charger
1 Lithium Race (LR) Battery + 1 Extra LR Battery
If you opt for more than the one drone kit package, you will get a full kit for each number of drones you order. One kit includes
One (1) Radio Remote Controller with Windows Joystick Drivers (Cross-compatible with all STEM DRONES offered by NextGen)

It is recommended that no more than 4 students utilize one drone kit with an ideal number being 2 students per kit.
One (1) First Person View (FPV) System FPV Goggles and Removable Micro FPV Camera with OSD (On-screen display) (Cross-compatible with all DRONES using 5.8Ghz Systems)
1 Set of Spare Propeller Set (4)
Carrying Case
Basic Assembly Tools and Hardware Downloadable Quadcopter Files

Optional Items (Package Dependent)

Additional benefits of our 3D Printable Drone Kit

Since all of our framework components are 3D printable, students and teachers are encouraged to explore creating their own components, based on criteria we provide.

Additive Manufacturing Exploration

Students not only learn about different types of plastics but also gain insights into the additive manufacturing process itself. They understand how layers of material are built up to create complex structures, fostering an appreciation for the versatility and potential of 3D printing technology.

Practical Application

Beyond theoretical knowledge, students engage in practical application by calibrating and operating 3D printers. They learn about parameters such as layer height, infill density, and print speed, gaining hands-on experience in optimizing print settings for quality and efficiency.

Material Modification

The flexibility to use various plastics and modify print files encourages experimentation. Students explore the mechanical properties of different materials and learn to select the most suitable ones for specific drone components, considering factors like strength, flexibility, and weight.

Precision Layer Resolution

100~300 microns (0.3 MM Average)

Positioning Precision

100~300 microns (0.3 MM Average)