Features:

• 3/16 Nut Driver 1/4 Nut Driver
• PR3- 3-prong Parts Retriever Reversible screwdriver bits T10; T15
• Reversible slotted screwdriver bits 3/16 & 1/4
• Reversible phillips screwdriver bits #1 & #2
• ET10- IC puller ET14-IC Inserter 14-16 pin
• ST101A- 1/8 Slotted Screwdriver ST101B- #0 Phillips Screwdriver
• ST17- Insulated Tweezer Driver handle - Fits all bits
• C20- Zippered Vinyl Case

Used to replace or supplement connector on NI myDAQ Kit.

Bring the power of the Arduino MKR1000 to the classroom with MATLAB and Simulink. The Arduino Engineering Kit is the ideal solution for university and advanced students, providing a state-of-the-art, hands-on incorporation of Arduino technology in an educational setting.

The kit is primarily for three types of users: students learning about engineering, professors teaching engineering, and makers with an interest or background in engineering.

The kit includes three cutting-edge Arduino-based projects that teach students fundamental engineering concepts, key aspects of mechatronics, and MATLAB and Simulink programming. These projects will challenge them intellectually and help them develop physical engineering skills — plus they’re just fun to do.

The kit is sold in a hard plastic, stackable tool box for storage and years of reuse. Inside the box is an easy-to-use Arduino MKR1000 Board, several customized parts, and a complete set of electrical and mechanical components needed to assemble all three projects.

In addition to the state-of-the-art, high-quality, open-source hardware provided, after registering online, each student will have access to a dedicated e-learning platform and other learning materials. Additionally, they are granted a one-year individual license for MATLAB and Simulink. This provides them with hands-on experience in system modeling and embedded algorithm development.

The Arduino Engineering Kit is built on its own education learning management system with step-by-step instructions and lessons. The content of this kit is divided into six chapters, featuring a short introduction, a getting-started guide for the tools that will be used, a concepts section, and, finally, the projects themselves. Users will receive access to the online platform for one year and can purchase additional licenses to extend platform access.

Includes,

• Arduino MKR1000 Board
• Arduino MKR Motor Shield
• Arduino MKR IMU Shield
• DC motor
• 2 geared DC motors with encoder
• Standard micro servo (180 degrees)
• Hall sensor module
• Ultrasonic sensor module
• Webcam
• LiPo battery
• LiPo battery charger
• Micro USB cable
• Tinkerkit Module Cable (3-pin to 4-pin)
• Tinkerkit Module Cable (3-pin)
• 3 sets of assembly pieces
• 2 wheels
• Caster wheel
• Timing belt
• 2 timing pulleys
• 2 DC motor mounting brackets
• Metal shaft (90 mm)
• 2 metal D shafts (50 mm)
• 2 sets of distance spacers (6 mm, 17 mm)
• 2 sets of M2 bolts (10 mm, 25 mm)
• 3 sets of M3 bolts (10 mm, 15 mm, 25 mm)
• Set of M2 nuts
• Set of M3 nuts
• Set of M3 lock nuts with nylon insert
• 3 shaft collars
• Propeller adapter screw
• 2 magnets (Ø8 mm)
• Thread (5 m)
• 2 whiteboard pens
• Sticker for vision recognition

• Industry-standard BNC connectors for quick connection to NI myDAQ analog inputs and outputs
• Access to digital and other NI myDAQ signals via through-hole test points on adapter board

Holds the NI myDAQ with test leads, the protoboard for the myDAQ, and the JW-140 jumper wire kit

Clip Probe for NI myDAQ - (requires NI myDAQ, sold separately)

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.

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!

fischertechnik Education STEM Engineering provides students with a comprehensive overview of robotics, coding and automated systems. This set is based heavily in computer science and engineering with an emphasis on programming. With over 30 different activities, students are invited to use the ROBO Pro programming software to create their own programs and automate their models. Offer your students an in-depth look at how coding works, which will strengthen their computational logic and ability to employ creative thinking to analytical programming. Success in STEM and higher education starts with an understanding of computer science and how it applies to engineering topics. Give your students a step up with this engaging set!

It includes all the parts necessary to build all 22 models from the following fischertechnik Education sets: Robotic: Advanced (#533018), Robotics & Electropneumatics (#533019), and Robotics in Industry (#533020)

Save when you puchase more. Ask us for a quote!

Micro-Master® Computer Training Kit

Features:

• Starting from scratch; you build a complete computer system.
• Teaches You to Write Into RAMs; ROMs; and Run an 8085 Microprocessor.
• Write Initial Instructions in Permanent Memory in a 2816EPROM.
• Teaches All About Input and Output Ports and Computer Timers.
• Complete with 128 Page Lesson Manual; Instructions and Experiments.

The MSN-100 microphone can be used to record, display and study the waveforms of various sounds such as voices and musical instruments (for NI myDAQ audio input)/

myDAQ - National Instrument's NI 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 that gives students the power to prototype systems and test circuits outside of the classroom while improving comprehension with continuous reinforcement.

The myGrid for NI myDAQ is an AC power grid that will help a student investigate the components of a power grid. The myGrid interfaces with NI myDAQ to demonstrate energy monitoring, energy conservation, and the concept of the smart grid. The system includes a traditional power source through a motor representing fossil fuels and a renewable power source using a solar panel. It models how power is generated, transmitted, and distributed in a residential setting across three houses.

Click here to download PDF brochure

Get your students quickly involved in building essential electronic circuits using myParts Kit supported by the Texas Instruments® University Program. The set of key components in the myParts Kit encourages hands-on experimentation with breadboards of basic circuitry, helping to make learning productive and enjoyable for beginners and more advanced students alike. Hobbyists and independent developers will also find the kit useful for investigating their design concepts. 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. myParts Kit enables your students to run experiments that help them understand real-life applications in areas such as power management, audio amplification, spinning motors, light detection, signal conditioning, data acquisition, and telecommunications to name a few.

The Digilent myProto accessory board for the NI myDAQ and NI myRIO brings all your myDAQ/myRIO's signals to breadboard connections where they can be easily accessed using simple jumper wires, and even adds several useful I/O devices.

The MSP connector on your myDAQ / myRIO provides power (+5 VDC and ±15 VDC) along with eight configurable digital I/O pins, two analog inputs, and two analog outputs. All of these signals are available and clearly labeled on the signal blocks at the top of the breadboard when plugged into the MSP connector. Referenece Manual

Features:

• Access all your myDAQ's signals on a breadboard
• Three onboard user LEDs
• One 10K Potentiometer
• Two Audio Jacks
• External power connector for breadboard circuits
• Power switches on all power supplies
• Uses the Mini System Port (MSP) connector

Note: Includes 12 volt power supply. Customers outside North America may require local plug adapter.

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. Learn more about mySTEM™ Project Board for NI myDAQ.

Allow you to immediately do some experiments. Additional Motors, encoders, lights, wiring, solenoids, electromagnets and any other component may be purchased separately. We recommend the Do Engineering Components Kit or visit 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. 

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. Learn more about mySTEM™ Project Board for NI myDAQ.

Allow you to immediately do some experiments. Additional Motors, encoders, lights, wiring, solenoids, electromagnets and any other component may be purchased separately. We recommend the Do Engineering Components Kit or visit 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. We recommend the Do Engineering Components Kit or visit the Spare Parts Store to create your own projects. Download Brochure.

PC required

Use the pH Sensor just as you would a traditional pH meter with the additional advantages of automated data collection, graphing, and data analysis. Typical activities using our pH sensor include:

• Acid-base titrations
• Studies of household acids and bases
• Monitoring pH change during chemical reactions or in an aquarium as a result of photosynthesis
• Investigations of acid rain and buffering
• Analysis of water quality in streams and lakes

Contains over 75 modular snap-together parts that will allow students to build over 500 projects in electronics. The full-color project book will make it a snap to construct projects related to transformer; relays; 7-segment LED displays; transistors and diodes. Also learn series/parallel circuits; AM/FM radios ; resistance and capacitance. Plus 73 bonus computer interfaced projects.

The Dissolved Oxygen Probe is great for biology, chemistry, ecology, or integrated science courses. It can be used to perform a wide variety of experiments to determine changes in dissolved oxygen levels, one of the primary indicators of the quality of an aquatic environment.

• Built-in temperature compensation lets you calibrate in the lab, then make measurements outdoors without having to recalibrate.
• Disposable caps with pre-fit membranes allow you to quickly and conveniently change membranes.
• Calibrate in the units you choose: % dissolved oxygen, mg/L, or ppm dissolved oxygen

The Goniometer can be used to measure the dynamic motion of a limb during different types of physical activity.

• A set of elastic straps are used to secure the sensor to the subject.
• The lightweight and flexible joint arms allow the limb to move naturally.
• Use it with an EKG Sensor to measure muscle activity during limb motion.
• The sensor can also be detached from the base plate and flexible arms so it can be used in a variety of STEM and engineering activities.

The Low-g Accelerometer is the best choice for most acceleration experiments, including Newton’s second law, simple harmonic motion, and the relationship between acceleration and force. It can also be used to study one-dimensional motion of a car (real and toy), an elevator, a pendulum bob, or an amusement park ride.

The adapter includes two connectors for Vernier analog sensors and one connector for Vernier digital sensors. A screw terminal and header pins provide access to myDAQ lines not used by the connectors. This includes the two analog output lines, three digital lines (including the digital lines with the frequency and pulse width modulation outputs), and a +5 volt power terminal.

The Vernier Resistor Board has seven 1 W 5% resistors mounted on a circuit board. Test clip holes on either side of the resistors allow for easy connections to clips on wire leads. The Vernier Resistor Board provides an ideal set of load resistors for KidWind wind turbines and solar panels.

The Stainless Steel Temperature Probe is a rugged, general-purpose temperature sensor that can be used in organic liquids, salt solutions, acids, and bases. Use it as you would use a thermometer for experiments in chemistry, physics, biology, Earth science, and environmental science.

The Turbidity Sensor measures the turbidity of fresh-water or seawater samples in NTU (Nephelometric Turbidity Units, the standard unit used by most water collection agencies and organizations). Its small, sleek design and simple setup make it easy to use at the collection site or in the classroom.

In addition to water quality studies, it can also be used to monitor precipitate formation or algae and yeast populations in chemistry and biology classes. The Turbidity Sensor includes high-quality Hach StablCal™ 100 NTU standard for quick calibration and a high-grade glass cuvette for your water sample.