Arduino Robotics Kit for Grade 8 | Ekya School, CMR

Female to Female Jumper Wires (20cm) 40pcs These are 20cm 40pcs Female to Female Jumper wires, very Flexible and easily detachable. These jumper cables have 1Pin female to the 1pin female header with both ends. Also, it is compatible with 2.54 mm mil spacing pin headers. This cable is an electrical wire or group of them in a cable with a connector or pins at each end, which is normally for interconnecting the components of a breadboard or other prototype or test circuit, internally or with other equipment or components, without soldering. Individual Dupont Cables are fitted by inserting their end connectors into the slots provided in a breadboard, the header connector of a circuit board, or a piece of test equipment. Mostly Dupont cables are useful with Orange Pi, Banana Pi, Raspberry Pi , Arduino , and other mini PCs and development boards . It is very useful in the PCB project, PC motherboard, as well as Breadboard connections. Additionally, these jumper wires allows you to plug and unplug easily for prototyping and can be used over and over again. Check out the best selection of Jumper Wires . Applications: Raspberry Pi Arduino PCB projects Breadboard connections Get a complete set of M2M, M2F, F2F Jumper Wires Set for DIY projects.

A3967 Stepper Motor Driver This A3967 Stepper Motor Driver For Arduino is the most recent version of EasyDriver v44, which was created in collaboration with Brian Schmalz. When compared to previous versions, it offers more flexibility and control over your stepper motor . It is a simple stepper motor driver that is compatible with most microcontrollers and capable of producing a digital 0 to 5V pulse (0 to 3.3V pulse if you solder SJ2 closed on the EasyDriver). A 7V to 30V power supply is required for the module's motor. The digital interface is powered by an onboard voltage regulator that can be set to 5V or 3.3V. The A3967 is a full-featured microstepping motor driver with an integrated transistor. It is intended for use with bipolar stepper motors in full-, half-, quarter-, and eighth-step modes, with output drive capabilities of 30 V and 750 mA. The A3967 comes with a fixed off-time current regulator that can operate in slow, fast, or mixed current-decay modes. This current-decay control scheme produces less audible motor noise, higher step accuracy, and lower power dissipation. The transistor is essential to the A3967's simple implementation. Simply sending one pulse to the STEP input causes the motor to move one step (full, half, quarter, or eighth depending on two logic inputs). It is not necessary to programme phase-sequence tables, high-frequency control lines, or complex interfaces. The A3967 interface is ideal for applications where a complex P is either unavailable or overburdened. Features: A3967 microstepping driver Adjustable current control from 150mA/phase to 750mA/phase MS1 and MS2 pins are broken out to change microstepping resolution to full, half, quarter and eighth steps (defaults to eighth) Compatible with 4, 6, and 8-wire stepper motors of any voltage Breadboard-compatible pins.

Official Raspberry Pi 4 Model B 4GB RAM The Raspberry Pi 4 Model B 4GB is a compact and versatile single-board computer that provides desktop-level performance in a credit card-sized device. The RPI 4B is powered by a Broadcom Quad-Core Cortex-A72 (ARM v8) 64-bit SoC that runs at 1.5GHz and has 4GB of LPDDR4-3200 SDRAM for efficient multitasking and basic desktop programs. This device is designed for a wide range of DIY projects, including media centres, file servers, robotics, and smart home systems. The Raspberry Pi 4B 4GB supports dual 4K displays ( 4K@30Hz ) through its micro-HDMI ports, making it perfect for high-definition video and creative endeavours. It has dual-band WiFi 2.4 GHz and 5.0 GHz IEEE 802.11ac , Bluetooth 5.0 , and Gigabit Ethernet for a consistent connection. It also features two USB 3.0 connections and two USB 2.0 ports to connect devices. The Raspberry Pi 4 4GB is popular among programmers and makers. It comes with native Python support , making it a fantastic platform for coding education and automation project development. It is capable of running both 32-bit and 64-bit operating systems , offering versatility for different uses. Whether for teaching, prototyping, or creative projects, it serves as a potent and affordable computing option. Shop Raspberry Pi 4 4GB Full Kit – Plug & Play Setup Affordable power for your projects – Raspberry Pi 4 2GB ! What makes this model Great? The speed and performance of the new Raspberry Pi 4 4GB are a noticeable improvement from earlier models. For the first time, the Raspberry Pi Foundation has created a complete desktop experience. Whether you're editing documents, browsing the web with multiple tabs open, managing spreadsheets, or creating a presentation, you'll find the experience smooth and familiar. It is a more energy-efficient and cost-effective machine. Features Broadcom 2711 Quad-Core Cortex A72 @ 1.5GHz delivers 20% faster performance with improved power and thermal efficiency. Dual micro-HDMI outputs support dual 4K displays with hardware video decode at 4Kp60 (H.265, H.264, MPEG-4). Dual-band WiFi (802.11b/g/n/ac) on 2.4GHz & 5GHz with advanced PCB antenna for robust wireless connectivity. Bluetooth 5.0 offers an extended range of wireless peripherals. Upgraded USB 3.0 Ethernet provides wired speeds up to 10x faster than previous models. 2 USB 3.0 and 2 USB 2.0 ports enable versatile peripheral connections. 40-pin GPIO header is fully backwards-compatible with earlier Pi models. Optional PoE support is available, with PoE header pins designed to work with proper standoffs. Comparison Table Raspberry Pi 4 Model B Raspberry Pi 5 Raspberry Pi 3 Model B+ Price (INR) ?3599 VIEW ?5129 VIEW ?3649 VIEW Processor 1.5GHz Quad-Core ARM Cortex-A72 2.4GHz Quad-Core ARM Cortex-A76 1.4GHz Quad-Core ARM Cortex-A53 RAM 1GB, 2GB, 4GB, 8GB LPDDR4 2GB, 4GB, 8GB, 16GB LPDDR4 1GB LPDDR2 Wi-Fi Dual-band 802.11ac Dual-band 802.11ac Dual-band 802.11ac Bluetooth 5.0 5.0 4.2 USB Ports 2× USB 3.0, 2× USB 2.0 2× USB 3.0, 1× USB 2.0 4× USB 2.0 Ethernet Gigabit Ethernet Gigabit Ethernet Gigabit Ethernet Video Output 2× Micro HDMI (4Kp60) 2× Micro HDMI (4Kp60) 1× HDMI (1080p) GPIO Pins 40 40 40 Storage MicroSD (SDXC up to 2TB) MicroSD (SDXC up to 2TB) MicroSD (SDHC) Power Supply USB-C USB-C Micro USB Click for Complete Raspberry Pi Kits – Learn, Build, and Innovate! Pin Diagram:

CNC Shield for Arduino The CNC shield for Arduino has total four slots, can drive 4 A4988 stepper motors. Each road stepper motors only need two IO ports. In other words, six IO ports can be well managed three stepper motors. The CNC Shield V3.0 allows you to build a engraving machine, 3D printer, mini CNC and other similar devices using your Arduino. It is designed as a shield and can plug on top of an Arduino requiring no external connections and wiring. There are 4 slots on the board for plugging in stepper motor drive module which can drive 1 stepper motor each. Controlling each step stepper motor requires only two IO pins on the Arduino. Just insert this Arduino CNC Shield V3.0 onto an Arduino UNO , and install the GRBL firmware, you can then quickly build a DIY CNC engraving machine. This arduino shield is very convenient to use and is suitable for development boards compatible with Arduino. This CNC shield compatible with Arduino is the latest version of the CN shield model (V 3.0). The CNC Shield is GRBL 0.9 compatible and with the help of jumper wires , it is accessible to stepper drivers. Features: Compact design. Stepper Motors can be connected with 4 pin molex connectors or soldered in place. GRBL 0.9 compatible. (Open source firmware that runs on an Arduino UNO that turns G-code commands into stepper signals) 4-Axis support (X, Y, Z , A-Can duplicate X,Y,Z or do a full 4th axis with custom firmware using pins D12 and D13)

CNC Shield + UNO R3 Board compatible with Arduino + 4xDRV8825 Driver Kit Arduino Uno is an open-source microcontroller used by students and hobbyists entering the world of DIY electronics and automation, The Arduino Uno can be used for any application including being the brains of your next DIY 3D printer and/or CNC router The CNC Shield V3.0 allows you to build an engraving machine, 3D printer, mini CNC and other similar devices using your Arduino. It is designed as a shield and can plug on top of an Arduino requiring no external connections and wiring. Along with that, the CNC shield allows you to control up to four stepper motors by mounting on 4 stepper motor drivers, included with this kit The DRV8825 provides an integrated motor driver solution for printers, scanners, and other automated equipment. The device has two H-bridge and is intended to drive a bipolar stepper motor. Features: UNO R3 Board: The main microcontroller board compatible with Arduino. CNC Shield: An expansion board that allows for easy connection and control of stepper motors. 4x DRV8825 Stepper Motor Drivers: High-performance drivers for controlling stepper motors. Micro-Stepping: Supports micro-stepping settings for precise control of stepper motors. GRBL Compatibility: Compatible with GRBL firmware, which is widely used for CNC control. Voltage Range: Operates on 12-36V DC. Heat Sinks: Included for cooling the stepper motor drivers. USB Cable: For connecting the UNO R3 board to a computer. 40-Pin Row Needles: For additional connections. Applications: CNC Machines: Used for controlling stepper motors in CNC milling, engraving, and cutting machines. 3D Printers: Essential for driving stepper motors in 3D printers, ensuring precise layer deposition and movement. Laser Cutters: Controls stepper motors in laser cutting machines for accurate cutting and engraving. Robotics: Ideal for robotics projects requiring precise motor control, such as robotic arms and automated guided vehicles (AGVs). X-Y Tables: Used in X-Y tables for accurate positioning and movement in various industrial applications. Pick-and-Place Devices: Employed in pick-and-place machines for accurate component placement in electronics manufacturing. Labeling Machines: Used in labeling machines for precise label application. Pinout Diagram for the Arduino Uno Microcontroller Applications of the Kit The kit can be used to create custom 3D printers, scanner, CNC mills and other automated equipment applications

7Semi SHT40 SGP40 VOC Environmental Monitoring Sensor Module Qwiic-Ready The 7Semi SHT40 + SGP40 VOC Environmental Monitoring Sensor Module is designed to help you measure temperature, humidity, and air quality with high accuracy and minimal effort. Built with advanced SHT40 and SGP40 sensing technology, this compact module delivers precise data for temperature (–40°C to 125°C), humidity (0–100% RH), and VOC levels with excellent response time and reliability. Whether you're prototyping with Arduino, Raspberry Pi, or any I2C-based microcontroller, the Qwiic-compatible interface makes integration incredibly simple and clean. This breakout board is ideal for home automation, indoor air-quality projects, workplace monitoring, or industrial systems where accurate VOC readings matter. Its low power consumption and digital 16-bit output make it highly suitable for long-term IoT deployments, high-precision environmental sensing projects, and portable air-quality monitors. Features: Designed as a compact breakout board integrating the SHT40 high-precision temperature and humidity sensor and the SGP40 VOC sensor for reliable environmental monitoring. Offers fast and accurate measurements, including ±0.2°C temperature accuracy and ±1.8% RH humidity accuracy, ensuring dependable readings in various environments. Qwiic-compatible interface enables effortless plug-and-play connectivity with I2C-enabled microcontrollers and SBCs without soldering. Produces 16-bit digital raw and processed VOC Index signals for easy integration into data-logging, automation, or IoT systems. Ensures low power consumption, making it suitable for battery-powered and continuous-monitoring applications. Built to detect a wide range of volatile organic compounds such as ethanol, acetone, and formaldehyde with high sensitivity and quick response times. Board Dimensions: Arduino I2C Connection Diagram:

SmartElex HTU21D-F Temperature and Humidity Sensor with Breakout Board The SmartElex HTU21D-F Temperature and Humidity Sensor with Breakout Board is a compact and reliable temperature and humidity sensor designed for accurate environmental monitoring. It helps users measure ambient temperature and humidity digitally with stable output, making it suitable for students, makers, educators, and engineers working on sensing and monitoring applications. This digital temperature and humidity sensor is ideal for those who want dependable readings without complex circuitry, especially in learning, testing, and early product development environments. This I2C digital humidity sensor is widely used in IoT systems, weather monitoring projects, automation setups, and data logging applications where consistent environmental data is required. It integrates easily with popular development platforms such as Arduino, Raspberry Pi, and ESP32, allowing quick setup and smooth communication through the I2C interface. With its breakout board design and reliable performance, the SmartElex HTU21D-F sensor is well suited for prototyping, robotics projects, and educational labs looking for a practical alternative to traditional sensors like SHT15 breakout boards. Features: Digital temperature and humidity sensor with stable and accurate readings I2C interface for simple and reliable data communication Compact breakout board for quick prototyping and testing Easy to use with Arduino, Raspberry Pi, and ESP32 platforms Suitable for IoT, automation, and environmental monitoring projects Ideal replacement option for older sensors like SHT15 breakout boards

Pludo Cable Bridge DIY Kit – Learn Force & Tension Through Bridge Building for Ages 8–11 | Grade 3–5 Discover the world of engineering with the Pludo Cable Bridge DIY Kit, an exciting hands-on learning experience designed for young innovators. This educational kit introduces children to the principles of force, tension, and structural design through a fun cable bridge-building activity. As kids assemble the bridge step by step, they explore how real-world engineering structures work while strengthening creativity, logical thinking, focus, and problem-solving skills. The kit demonstrates the concept of tension using a suspension-style bridge model. Tight cables or chains hold the bridge planks in place and distribute applied force evenly across the structure. This shows how tension in cables carries load and maintains stability, just like in real suspension bridges. Perfect for curious minds aged 8–11 years (Grade 3–5), this science experiment kit encourages interactive learning while improving focus, coordination, and logical thinking. Made from eco-friendly, durable materials, it ensures a safe and engaging experience for every young builder. Ideal for home learning, school projects, or group activities, this educational toy transforms playtime into a rewarding journey of discovery. What Your Child Will Learn Learn how tension and compression keep bridges strong and balanced. Understand how forces interact in structures through guided building. Strengthen fine motor skills, focus, and problem-solving while assembling the model. Encourage curiosity and creativity through practical, project-based learning. Experience the joy of building a real working cable bridge powered by imagination and science. Educational Outcomes Engineering Concepts: Understand the basic principles of tension, force distribution, and load-bearing structures. STEM Skills: Develop a foundation in mechanical design and civil engineering through hands-on assembly. Critical Thinking: Enhance reasoning and analytical abilities by experimenting with structural stability. Creativity & Design Thinking: Apply imagination to modify and strengthen bridge designs. Fine Motor Development: Build precision, patience, and attention to detail during construction. 💡 Did You Know? The same principles used in this kit are applied in designing real-world cable bridges like the Golden Gate Bridge! Features: Hands-on DIY science kit teaching tension, force, and bridge engineering. Encourages creativity, problem-solving, and structural understanding through play. Includes all components to build a working cable bridge model. Made from safe, eco-friendly, and durable materials for worry-free use. Helps children build fine motor skills, focus, and critical thinking. Designed for ages 8–11 years (Grade 3–5) following NEP 2020 learning standards. Comes with a detailed instruction manual for guided and easy assembly. A perfect educational gift for young science lovers and budding engineers.

Pludo Traditional Well STEM Kit – DIY Smart Toy for Kids 8–11 | Grade 3–5 Wheel Transmission Project Let your child explore the wonders of mechanics with the Pludo Traditional Well STEM Kit – a DIY Smart Toy designed for kids aged 8–11 (Grade 3–5). Through this hands-on project, children build a working pulley system and learn how wheel transmission helps lift or move objects efficiently - turning theory into fun, practical learning. This interactive STEM toy for kids encourages problem-solving, logical thinking, and creativity while helping them understand the basics of simple machines. Each activity in the learning kit promotes curiosity and confidence by allowing children to experiment and see real results. The Pulley Well demonstrates wheel-and-axle motion, where turning the handle lifts or lowers a bucket. It shows how pulleys reduce effort and provide mechanical advantage in lifting objects. Perfect for school projects or home experiments, this STEM learning toy makes science both exciting and educational. It’s a wonderful science experiment kit for young innovators and an engaging STEM learning kit that also makes for a thoughtful gift for curious minds. What Your Child Will Learn Learn how pulley systems reduce effort and make lifting easier. Understand wheel transmission, load distribution, and basic mechanics through guided play. Strengthen fine motor skills, coordination, and logical thinking while assembling the model. Build problem-solving and creative thinking through experimentation and hands-on exploration. Encourage an early interest in engineering and STEM concepts through fun, interactive play. Educational Outcomes Simple Machines: Explore how pulleys work and why they are essential in everyday machinery. Physics of Force: Understand how direction and effort change when using wheels, ropes, and axles. Engineering Skills: Learn about mechanical advantage and movement through real-world application. Cognitive Development: Boost critical thinking, observation, and reasoning abilities through structured building. STEM Confidence: Encourage independent discovery and scientific curiosity through practical experimentation. 💡 Did You Know? Pulleys have been used for over 2,000 years - from ancient wells to modern cranes - because they make lifting heavy loads much easier! Features Hands-on DIY Learning: Kids build their own pulley system, discovering how wheel transmission works through real, practical learning. STEM-Aligned Activity: Designed to strengthen understanding of basic physics and engineering, enhancing creativity and problem-solving skills. Safe & Durable Materials: Made with high-quality, eco-friendly components suitable for young learners. Guided Assembly: Includes easy-to-follow instructions; best used with adult or STEM tutor supervision for an effective learning experience. Perfect Educational Gift: A thoughtful choice for birthdays, return gifts, classroom activities, or STEM workshops. Encourages Curiosity: Nurtures an early interest in science, mechanics, and STEM learning through interactive play.

SmartElex RJ45 magjack Connector Breakout Board The SmartElex RJ45 MagJack Connector Breakout Board is a convenient module designed to make Ethernet connectivity accessible for custom electronics projects. It breaks out an RJ45 Ethernet jack with integrated magnetics, allowing users to interface network signals with development boards, prototypes, and embedded circuits without needing to design their own connector layout. This board is ideal for students, makers, engineers, educators, and startups who want to experiment with wired networking, communication protocols, or LAN-based control in robotics and IoT applications. This RJ45 MagJack breakout board is commonly used in IoT networks, automation systems, communication modules, and hardware prototypes that require Ethernet access for data transfer or device control. It can be used with platforms like Arduino, Raspberry Pi, ESP32, and other microcontroller boards that support Ethernet interfacing through additional hardware or modules. With reliable connectivity and a beginner-friendly breakout design, the SmartElex RJ45 MagJack Connector Breakout Board is a practical choice for testing, learning, and developing Ethernet-enabled electronic devices and embedded systems. Features: Breaks out an RJ45 MagJack Ethernet connector to easy-to-use pins Simplifies Ethernet interfacing for prototyping and custom circuits Integrated magnetics for stable network signal handling Compatible with Arduino, Raspberry Pi, ESP32 (with Ethernet support) Ideal for IoT, automation, LAN communication, and embedded systems Great for testing, learning, and building Ethernet-enabled devices

Pludo STEM Kit Spring Force – Shock Absorber DIY Science Experiment Kit for Kids 11–14 | Grade 6–8 Mechanics & Force Model Introduce young engineers to the world of mechanics with the Pludo STEM Kit Spring Force, a hands-on shock absorber learning kit designed for students aged 11–14 years (Grade 6–8). This engaging activity helps children explore how springs store and release energy, absorb shocks, and stabilize moving systems - the same principles used in cars, bikes, and industrial machines. By assembling and testing their own shock absorber model, learners experience real mechanical concepts in action. Perfect for science classrooms, home learning, or STEM clubs, this kit empowers children to experiment with compression, elasticity, and force distribution. With clear instructions, durable components, and interactive activities, the Spring Force kit makes complex physics concepts feel simple and exciting. It encourages analytical thinking, engineering logic, and hands-on discovery while building a strong foundation in real-world mechanics. What Your Child Will Learn Discover how springs absorb impact and reduce shock in vehicles and machines. Understand concepts like elastic potential energy, compression, and restoring force. Experiment with how changing spring strength affects motion and stability. Develop engineering thinking through assembling and testing a functional model. Explore real-world applications of shock absorbers in automobiles, cycles, and suspension systems. Educational Outcomes Mechanical Force Concepts: Learn how springs resist motion, absorb energy, and stabilize systems. Elasticity & Compression: Hands-on understanding of Hooke’s law and restoring force. STEM Skill Development: Enhances problem-solving, experimentation, and design thinking. Real-World Connection: Links classroom science to actual technologies like car suspensions and machinery. Engineering Confidence: Builds curiosity and clarity through assembling a practical working model. 💡 Did You Know? Cars, bikes, and even spacecraft rely on shock absorbers — the same spring principles your child explores in this kit! Features A hands-on DIY science kit that teaches spring force, shock absorption, and mechanical stability. Encourages analytical thinking, engineering logic, and problem-solving during construction. Built using safe, durable, high-quality materials suitable for repeated experiments. Designed for kids aged 11–14 (Grade 6–8) with age-appropriate mechanical concepts. Helps children understand elasticity, compression, energy absorption, and real-world mechanics. Perfect for school science classes, home experiments, robotics clubs, or science fair projects. Includes all required components along with a step-by-step instruction manual. Makes an excellent educational gift for young engineers - ideal for sparking interest in physics, automobiles, and engineering design.

SmartElex Micro ISM330DHCX 6DoF IMU Sensor The SmartElex Micro ISM330DHCX 6DoF IMU Sensor is a compact motion-sensing module that combines an accelerometer and gyroscope to measure movement, orientation, and rotation. It helps users track motion data accurately in three-dimensional space, making it useful for students, hobbyists, engineers, and educators working on robotics, automation, and motion-based electronics. This IMU breakout board simplifies motion tracking in projects where stability, responsiveness, and precision are important, without requiring complex circuit design or calibration setups. This 6DoF IMU sensor is commonly used in self-balancing robots, gesture-controlled systems, IoT wearables, drones, and embedded automation projects that rely on movement or orientation feedback. It integrates smoothly with popular development platforms like Arduino, Raspberry Pi, and ESP32, making setup and data processing beginner-friendly and efficient. With dependable performance and straightforward compatibility, the SmartElex Micro ISM330DHCX is a practical choice for prototyping, academic learning, and product development where reliable motion tracking and sensor fusion are essential. Features: 6DoF IMU with built-in accelerometer and gyroscope for motion tracking Measures linear acceleration and rotational movement in real time Compact breakout board designed for easy integration in projects Compatible with Arduino, Raspberry Pi, ESP32, and similar platforms Ideal for robotics, drones, wearables, and gesture-based control systems Reliable module for prototyping, STEM learning, and embedded development

Pludo Pinhole Projector – DIY STEM Kit for Kids 8–11 | Grade 3 to 5 Small Hole Imaging Learning Project Discover the fascinating world of light and imaging with the Pludo STEM Kit Pinhole Projector - a hands-on DIY STEM kit designed for kids aged 8-11. This engaging project lets children build their own pinhole imaging device, helping them understand how light travels and forms images in a simple, interactive way. Perfect for classroom activities or home learning, this kit encourages curiosity, critical thinking, and problem-solving while making science fun and accessible. As one of the most engaging science experiment kits, it transforms complex concepts into practical experiences, turning it into a memorable educational adventure. A great addition to any collection of educational toys or science kits for kids, it also makes a thoughtful gift for young learners interested in hands-on STEM projects. What Your Child Will Learn Learn how light rays travel in straight lines and how they form images through a pinhole. Understand the basic principles of optics, including light, shadows, and image inversion. Strengthen critical thinking and problem-solving through guided experimentation. Boost fine motor skills and focus while building and testing the model. Foster curiosity and creativity by exploring how simple tools can reveal big scientific ideas. Ideal for home learning, classroom demonstrations, or science fairs. Educational Outcomes Optical Science: Discover how light behaves and how images are formed in cameras and the human eye. Physics in Practice: Observe real-world applications of light behavior and image projection. STEM Integration: Combines science, creativity, and design thinking for an engaging learning experience. Critical Thinking: Encourages observation, prediction, and analysis of visual outcomes. Curiosity & Confidence: Builds enthusiasm for scientific exploration through practical, hands-on discovery. 💡 Did You Know? The pinhole camera is one of the earliest forms of imaging technology — it uses the same principles that modern digital cameras are built on! Features DIY STEM Kit: Kids assemble their own working pinhole imaging device, making learning interactive and rewarding. Learn Light & Imaging: Explores the principles of light, shadows, and image formation through fun experiments. Enhances STEM Skills: Encourages critical thinking, problem-solving, and fine motor development. Safe & Durable Materials: Made with high-quality, child-safe components for worry-free learning and play. Perfect for Home or Classroom: Great for guided STEM lessons, school projects, or independent exploration. Great Educational Gift: Inspires curiosity and practical understanding - perfect for birthdays, holidays, or science-loving kids.

Pludo DIY Vortex Lab – DIY Science Experiment Kit for Kids 11-14 | Fluid Dynamics STEM Project for Grade 6-8 The Pludo DIY Vortex Lab is an exciting science experiment kit designed to introduce students to the fascinating world of fluid dynamics and vortex formation. Perfect for curious minds in grades 6–8 (ages 11–14), this engaging STEM learning kit blends theory with hands-on experimentation, helping children visualize scientific concepts in action. With easy-to-assemble components and guided instructions, students can explore how rotational motion and energy transfer work in fluids. When the motor is switched on, magnets attached to the motor rotate at high speed, causing a connected metal piece inside the glass container to spin. This motion creates a strong stirring effect, making the liquid swirl and form a funnel-shaped vortex. Through this experiment, learners clearly observe how centrifugal force, gravity, and fluid motion interact to create a vortex. This interactive learning kit not only builds scientific curiosity but also sharpens observation and analytical thinking. An ideal choice for schools, workshops, or home study, the Vortex Lab also doubles as a creative educational toy, making science fun, practical, and deeply rewarding. What Your Child Will Learn: Explore the science of vortex formation and water motion. Learn how air pressure, gravity, and centrifugal force interact. Develop critical thinking and problem-solving through practical observation. Strengthen creativity and fine motor skills with DIY assembly. Experience the joy of discovering real-world physics through experimentation. Educational Outcomes: Conceptual Understanding: Builds a solid foundation in fluid mechanics, air pressure, and rotational motion. STEM Skill Development: Encourages curiosity, analytical reasoning, and hands-on learning aligned with NEP 2020 objectives. Observation & Discovery: Enhances the ability to hypothesize, test, and draw conclusions like a young scientist. Confidence in Learning: Promotes independence as kids build and explore a working vortex model. Practical Application: Connects classroom concepts to real-world examples such as cyclones, whirlpools, and tornadoes. Fun Fact: The same swirling motion that forms a vortex in your bottle also happens in hurricanes and galaxies! Features Hands-on fluid dynamics learning: Understand the science behind vortex formation and water motion through practical experimentation. STEM-based exploration: Encourages curiosity, problem-solving, and critical thinking-perfect for developing scientific temper in middle school learners. DIY assembly kit: Comes with all components needed to build the vortex model, promoting hands-on creativity and engineering skills. Ideal for grades 6–8 (ages 11–14): Designed in alignment with NEP 2020 learning objectives for deeper conceptual understanding. Educational and fun: Blends classroom learning with real-world application, making it a favorite among students and STEM tutors. Perfect gifting option: A thoughtful and educational gift for young science enthusiasts, suitable for birthdays, science fairs, or school projects.

Pludo STEM Kit Cable Bridge Project – Concepts of String & Tension for Kids 3–5 | Mont-2 DIY Puzzle Toy Encourage young learners to discover the basics of engineering with the Pludo STEM Kit Cable Bridge Project – Concepts of String & Tension for Kids 3–5 | Mont-2 DIY Puzzle Toy. Children can build their own cable-stayed bridge, learning about balance, structure, and design through hands-on play. The Cable Bridge shows how tension in cables supports weight and keeps structures stable. By tightening the cables, kids see how real suspension bridges balance loads to stay strong and secure. This puzzle toy develops problem-solving skills, fine motor abilities, and logical thinking. It also makes a fun addition to creative toys for kids and kids activity toys, perfect for home projects or classroom exploration. As part of kids learning kits and school toys, this DIY kit provides an engaging way to combine learning with play. What Your Child Will Learn Learn how bridges stay balanced using cables and support pillars. Understand basic building concepts like weight, stability, and structure. Strengthen fine motor skills by connecting and placing puzzle pieces. Build early problem-solving and logical thinking through trial and play. Boost creativity while learning to follow simple, step-by-step building guidance. Educational Outcomes Early Engineering Skills: Introduce foundational concepts such as stability, symmetry, and load support. Cognitive Development: Improve memory, reasoning, and categorization during puzzle building. Motor Skills Strengthening: Enhance dexterity, hand–eye coordination, and grip control. Creative Thinking: Encourage imagination while understanding how real bridges are designed. School Readiness: Supports early learning standards for Preschool to Grade 2, aligning with STEM exposure for young minds. 💡 Did You Know? Cable-stayed bridges (like the Bandra-Worli Sea Link) stay upright using tension, the same principle your child explores while building this model! Features Hands-on Puzzle Kit: Kids build their own cable bridge, making early learning exciting and interactive. Preschool-Friendly STEM Activity: Introduces balance, structure, and design in a simple, playful way. Safe & Durable Materials: Crafted from eco-friendly, child-safe components ideal for kids aged 3–5. Guided Assembly: Includes easy-to-follow instructions perfect for young learners with adult guidance. Supports Skill Development: Enhances problem-solving, fine motor skills, and logical reasoning. Ideal for Home or Classroom: Great for preschool activities, early STEM labs, or creative play sessions. Perfect Educational Gift: A thoughtful choice for birthdays, return gifts, or classroom learning kits. Encourages Creativity: Helps children explore design, balance, and construction through open-ended play.