The Studica VMX FRC-compatible Training Bot (FRC Trainer) is a smaller, sturdy, lightweight, and less expensive robot than your typical FRC robot. If you have a large FRC team, often only a handful of students get to learn how to create and program your team’s costly competition robot. The FRC Trainer solves this problem and is ideal for groups of two to three to participate in hands-on learning in a classroom environment. Schools can equip their labs with multiple FRC Trainers, benefiting from the great value and compact size. Students can even take it home with them!
This affordable solution is intended for:
The FRC-compatible Trainer is an intelligent and autonomous robot that uses the VMX Advanced Robotics Controller which can be programmed in C++ and Java. VMX’s multitude of modern digital communications interfaces and Linux-based operating system allow users to directly access most modern devices (e.g., Intel RealSense tracking and depth cameras and LIDAR).
VMX-Pi Key Use Cases and Hardware/Software Features and Benefits
VMI-Pi Key Use Case Document is available here
Studica accepts Purchase Orders from Schools and established companies, offering net 30 terms upon review and approval. Contact us at firstname.lastname@example.org for more information.
The FTC Drive Base Kit is available for FIRST teams only. This special offer is only available for a limited time and to qualify you must provide us with your FTC team name and number. This drive base kit when purchased individually is valued at $389 USD.
Note: You can use any FIRST legal motor with this set.
The fischertechnik Training Factory Industry 4.0 – 24V is an extremely flexible, modular, reasonably priced, and highly robust training and simulation model for use with most popular industrial PLCs.
Changes in industrial production driven by digitalization make stronger networking and more relevant information necessary on all production levels. With the fischertechnik Training Factory Industry 4.0, these digitalization activities can be simulated, learned, and applied on a small scale before they are implemented on a large scale.
The fischertechnik Training Factory Industry 4.0 is a 24V simulation model that consists of factory modules including storage and retrieval stations, a Vacuum Gripper robot, High-Bay Warehouse, Multi-Processing Station with Oven, a Sorting Line with Color Detection, an environmental sensor, and a pivoting camera. It is especially designed for exploring and understanding industry 4.0 applications in vocational schools and training as well as for research, teaching and development at universities, in companies, and IT departments.
This Engineering Applications of Computer Science Course -Medium Kit will contain items for up to 20 students in one class. Engineer Your World Kits – a full kit of equipment and supplies for your classroom.
This Engineering Design and Analysis Course - Medium Kit will contain items for up to 24 students in one class. Engineer Your World Kits – a full kit of equipment and supplies for your classroom.
Aerospace Engineering - Students in this curriculum will explore how to design, build, test and analyze the forces and physical properties of planes, rockets and unmanned vehicles. Through project-based learning, students will explore the future of aerospace and learn to apply those habits of behavior and mind unique to the field.
Automated Materials Joining Technology will appeal to students who want to focus on joining and forming technologies, materials science, computer-aided design and automated systems — key facets of advanced manufacturing — while applying math and science knowledge to design and produce products.
Classroom pack of Flexi-Cables for NXT/EV3 (35 cm x 25) offers users ribbon-like cables that are both thin and flexible.
The Cobra Line Follower Array provides 4 X QRE1113 IR reflectance sensor mounted on a 9mm pitch Each sensor is comprised of two parts - an IR emitting LED and an IR sensitive phototransistor. When you apply power to the VCC and GND pins the IR LED inside the sensor will illuminate.
The Studica Line Sensor Board consists of 4 IR LED/phototransistor pairs, making it a great detector for a line-following robot. The Line Sensor Board allows the robot to tell objects or surfaces apart based on how dark or light they are. It shines a beam of infrared light out onto the object, and measures how much light is reflected back.
Each sensor provides a separate analog voltage output. The sensor board is an infrared emitter/receiver that is able to differentiate between a dark surface (with low IR reflectivity – 3.3V to 5V) and a light surface (with high IR reflectivity – 0V to 0.5V). However, this range can vary depended on the installed height of the sensor board.
The optimum height distance is 3-5 mm; however, the reflectivity values will change depending on distance. A daylight filter is built into the sensor.
The Language Tree Online Comprehensive ELD Curriculum (Levels 1 & 2) is a complete, standards-based online curriculum for English learners in grades 6-12. This program is designed to help students make rapid progress in all four domains of language acquisition. It includes both the ELD (English Language Development) Level 1 and ELD Level 2 programs. The Comprehensive Curriculum is recommended for classes or districts with English Learner students who range from a Newcomer and Beginner to Intermediate level or Long Term English Learners. Educators have the flexibility to assign applicable lesson modules from Level 1 and Level 2 programs based on the individual needs of their students.
The CI-73 allows the SC-300 or SC-500 set to interface with a computer! With this module, you will learn about and use an oscilloscope and spectrum analyzer, as you build over 73 BONUS PROJECTS using your Windows-based PC (32 projects require the SC-500). Comes with all of the interface parts you need and the software. Great for introducing electronics through a computer. Acts as a scope and allows you to see the signals in the circuit.
Perfect introductory curriculum for middle, high school and maker spaces, this course challenges students to work in teams to solve complex design problems. Students research, design, develop, and communicate design solutions Teams use engineering software to prepare and evaluate designs and make extensive use of 3D printing to prepare models for presentation to authentic audiences. The goal of the course is the application of the tools to address unique problems allowing the students to rapidly create and analyze proposed solutions. Siemens’ software and hardware are tools frequently used by industry and understanding how these tools are used in problem solving is critical.
This course is designed for students who have experience with the Engineering Design course, providing students with experience in the creation of a design, preparing the design for machining and designing the automation necessary to control processes. This manufacturing course will challenge students to collaborate and solve design problems by working in teams. They must research and report their findings. This course helps prepare students to obtain Siemens PLC and Solid Edge certifications. It also utilizes the various Siemens’ software as tools for problem-solving and preparing solutions. The goal of the course is the application of the tools to address unique problems, allowing the students to rapidly create and analyze proposed solutions.
Meet databot™ – one tiny brilliant cube packed with high-tech, science exploration fun. Databot™ fits in the palm of your hand, collects information from 11 included sensors that measure motion, temperature, altitude, velocity and so much more! The data is streamed instantly to provide engaging experiments in science, coding, and technology in every learning environment imaginable! The databot™ kit includes everything you need to get started – just add a computer or tablet!
Ideal for the myRIO.
Heavy duty plastic case with 2 custom foam inserts for housing your Snap Circuits parts. Makes it easy to identify missing components. Also includes a separate small case to hold the smaller loose parts.
Dremel Nylon filament has been specifically engineered for optimal printing with your Dremel 3D Printer 3D45.
RFID filament recognition tag - Printer automatically adjusts settings by reading the filament RFID tag
Provides a very smooth surface for strong and flexible prints with heavy wear resistance
Implementing 3D printing just got easier. Introducing the Dremel 3D40 FLEX 3D printer Education bundle, with lesson plans, professional development and easy-to-use software.
Implementing 3D printing just got easier. Introducing the Dremel 3D45 3D printer Education bundle, with lesson plans, professional development and easy-to-use software.
Dremel Build Tape with Leveling Sheet offers you the additional or replacement accessories you need to keep your Dremel 3D printer working. Use Dremel Build Tape to protect your build platform and optimize your 3D printing process. It is also a great idea to analyze and re-align your build platform. That's where the Leveling Sheet can help. These must-have accessories are available in a single bundle to help maintain your Dremel 3D printer and support your next series 3D designs!
We know you need to track system requirements and standards. With BrightShift, you can create tests with categorical scoring that matches your approved standards. You can quickly see test results by roster and across categories. Instant assessment provides feedback on standard areas for classes and individual students, giving you insight for success.
Purpose-built sensor for muscle activity measurement.
Adapter Board for Use with the IX-ELVIS
The IX-ELADP is a two channel adapter for interfacing iWorx Systems, Inc. transducers to the stock NI ELVIS II SERIES PROTOTYPING BOARD included with the NI ELVIS system manufactured by National Instruments.
The IX-ELADP is an open PCB with 2 MINIDIN7 connectors that mate to the analog outputs from the transducers. There is also a gain set resistor option.