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.
Clean Energy Technology - This curriculum enables students to apply fundamental science and operating principles of clean energy systems to authentic problems that involve motors and generators, photovoltaic systems, water and energy conservation, wind turbines, biofuel generation, bioreactors, water power, energy harvesting, fuel cells, and nuclear power.
Energy and Power - Students will research, design and build a series of authentic, hands-on projects that will enable them to understand the interplay of the generation, distribution and use of energy.
Health Informatics - This curriculum merges information science, computer science and health care. Students use information technology, data analysis software and statistics to address a range of health related topics.
Innovations in Science and Technology - This STEM program will provide students the knowledge and hands-on experiences they need to be successful in the new global workforce. The authentic projects will challenge students to design, build and evaluate solutions to problems and projects and will develop students’ technological literacy and stimulate their interest in pursuing a career in STEM.
SREB Manufacturing & Automation - This curriculum engages students in using innovative industry-driven technologies to imagine and design new and improved products using automated computer-aided design and manufacturing programs.
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.
The Studica VMX FRC 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:
FRC teams that want to learn and train on a smaller and more affordable robot,
Schools looking for a way to teach FRC robotics in the classroom.
Schools that want to teach coding in the classroom through robotics.
The FRC-compatible Trainer is an intelligent and autonomous robot that uses the VMX 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 [email protected] for more information.
The Training Factory Industry 4.0– 24V from fischertechnik is an extremely flexible, modular, reasonably priced, and highly robust training and simulation model for use with most popular industrial PLCs. Explore Industry 4.0 and more with this powerful 24V simulation model that includes a variety of factory modules. Details below.
The kit comes with a collection of parts that are the building blocks of all electronics, including op-amps, an instrumentation amplifier, a comparator, voltage regulators, switching regulators, digital logic gates, timers, temperature sensors, data converters, transistors, resistors, capacitors, LEDs, switches, a wiring kit and more.
The Digilent myProto accessory board for the NI my-DAQ and NI my-RIO brings all your my-DAQ/my-RIO's signals to breadboard connections where they can be easily accessed using simple jumper wires, and even adds several useful I/O devices.
The mySTEM™ Control & Project Board for NI myDAQ is an essential tool for the introduction of control systems. It is ideal for teaching and learning science, technology, engineering and mathematics. The mySTEM™ Project Board comes with learning resources that may be used by any beginner in the STEM field to gather data, make decisions and control output devices. It allows students to control the state and direction of four output channels that support a wide range of field devices.
Additional Motors, encoders, lights, wiring, solenoids, electromagnets and any other component may be purchased separately. We recommend the Spare Parts Store to create your own project.
Includes:
S-Motor
Mini Switch
resisters
wires
flat plugs
Note: mySTEM Project Board comes with US Plug. You can easily use into different plug with common US->EU or other adapters. Additional Motors, encoders, lights, wiring, solenoids, electromagnets and any other component may be purchased separately.
myVTOL mini system will help teach basic flight dynamics, motion control, and PID control. This vertical takeoff and landing system uses a variable PC fan to create lift for one degree of freedom plant and can hover, take off, and land vertically much like a helicopter or harrier jet.
Note: Can run on 9 volt battery (included) or external 9 volt power pack.
National Instrument'sNI myDAQ is designed to give students the ability to work on engineering course work and experiment with projects hands-on anywhere, anytime. The NI myDAQ is a high-quality instrumentation device gives student's the power to prototype systems and test circuits outside of the classroom while improving comprehension with continuous reinforcement.
The Robotics Add On: Autonomous Driving set combines with the Robotics Base Set to allow students to discover a variety of exciting technologies essential to our everyday lives. From the automatic light to a lane departure warning system, cruise control and an automatic parking feature – the model guarantees excitement in the classroom.
Main topics: autonomous driving, control technology, analog sensor technology, speed measurement, distance calculation, distance measurement
Includes downloadable teaching and activity material (free download)
Components include chassis (differential, wheels), servo, LED, steering
Ideal complement: ADD ON Omniwheels, ADD ON Competition
The Robotics ADD-ON Competition is designed for schools, universities and other educational institutions that want to develop or improve their models for robotics competitions for their students.
Main topics: Robot competitions, project work and workshops in robotics
Includes downloadable teaching and activity material (free download)
Components include a RGB guest sensor in 6 directions, color detection, ambient brightness, proximity detection up to 15cm, ultrasonic sensor, combi sensor (gyroscope, acceleration and compass), more powerful motors, snap-on trackpads
Professional entry into measured value acquisition with the Robotics ADD-ON IoT! Together with the Robotics TXT 4.0 Base Set, the sensor station enables the measurement of temperature, humidity, air pressure, air quality and brightness.
Main topics: Measurement acquisition and transmission, network connections, cloud computing, IoT
Includes downloadable teaching and activity material (free download)
Components include environmental sensor, and brightness sensor
Build and program even more intriguing robots with the Robotics ADD-ON Omniwheels. Together with the Robotics TXT 4.0 Base Set, four exciting Omniwheels models can be constructed.
Compared with the Electronic Brick system, the Grove System uses only 1 type of cable, (the Electronic Brick system uses 4). These cables are compatible with all modules included in the Grove system.
The Universal 4 Pin Buckled Cable is made for the Grove System to connect all of the Twigs to the Stem - Basic Shield or to other Twig compatible boards for quick prototyping. As a lot of users ask for different length of cables, so we made the 5cm,20cm,30cm,40cm,and 50cm cables for different applications.
With this wire, you can easily connect all of Seeed Grove modules to any 2.54mm pitch connectors. 5 PCs is included in one pack.Length of each wire is 20cm. Note: Grove side uses buckled connector.