STEM Club In A Box – KS2 10 Week Club

£700.00

How it works: Choose 5 projects, receive 20 of each, plus a couple of spares.

Wind Energy Powered Home Project

  • Wind Energy and Power Generation
  • Renewable Energy Concepts
  • Mechanical to Electrical Energy Conversion
  • Turbine Design and Aerodynamics
  • Force and Motion Dynamics
  • Design and Engineering Principles
  • Problem-Solving and Iteration
  • Measurement and Calibration

Motorised Ferris Wheel Project

  • Circular Motion and Rotational Dynamics
  • Mechanical to Electrical Energy Transfer
  • Gear Ratios and Mechanical Advantage
  • Balance and Stability
  • Force and Torque
  • Design and Engineering Principles
  • Problem-Solving and Iteration
  • Measurement and Precision

Fibre Optic Peacock Project

  • Light Transmission and Reflection
  • Fiber Optics and Refraction
  • Color Mixing and Perception
  • Design and Engineering Principles
  • Problem-Solving and Iteration
  • Measurement and Calibration
  • Material Properties and Selection
  • Electrical Components and Circuits

Remote Controlled Crane Project

  • Mechanical Advantage and Pulley Systems
  • Force and Load Distribution
  • Electrical Circuits and Control Systems
  • Motion and Kinematics
  • Engineering Design Principles
  • Problem-Solving and Iteration
  • Load Management and Safety
  • Measurement and Precision

Mechanical Safe Box Project

  • Mechanical Advantage and Simple Machines
  • Gear Mechanisms and Functionality
  • Force and Tension
  • Design and Engineering Principles
  • Problem-Solving and Iteration
  • Security Mechanisms and Locking Systems
  • Measurement and Calibration

Remote Controlled Balance Bot Project

  • Balance and Stability
  • Force and Motion Dynamics
  • Electrical Circuit Design and Function
  • Problem-Solving and Iteration
  • Measurement and Calibration
  • Design and Engineering Principles

Bionic Robot Project

  • Biomimicry and Nature-Inspired Design
  • Kinematics and Movement Mechanics
  • Force and Torque
  • Gait Analysis and Motion
  • Energy Transfer and Efficiency
  • Design and Engineering Principles
  • Problem-Solving and Iteration
  • Measurement and Calibration

Remote Control Walking Dinosaur Project

  • Kinematics and Motion
  • Gear Mechanisms and Mechanical Advantage
  • Balance and Stability
  • Force and Torque
  • Design and Engineering Principles
  • Problem-Solving and Iteration
  • Measurement and Calibration
  • Physics of Walking Mechanisms

Mood Lamp Project

  • Light Emission and Color Theory
  • Electrical Circuits and Components
  • Energy Conversion and Efficiency
  • Design and Aesthetics Principles
  • Problem-Solving and Iteration
  • Measurement and Precision
  • Material Properties and Selection
  • Safety in Electrical Work

Ping Pong Shooter Project

  • Force and Motion
  • Elastic Potential Energy
  • Projectile Motion and Trajectory
  • Design and Engineering Principles
  • Energy Transfer and Conservation
  • Problem-Solving and Iteration
  • Measurement and Calibration
  • Friction and Surface Interaction

Remote Control Retractable Gate Project

  • Mechanical Engineering and Design Principles
  • Gear Mechanisms and Mechanical Advantage
  • Force and Motion Dynamics
  • Electrical Engineering and Circuit Design
  • Control Systems and Remote Operation
  • Problem-Solving and Iteration
  • Measurement and Precision
  • Friction and Surface Interaction

Remote Controlled Car Project

  • Mechanical Engineering and Design Principles
  • Kinematics and Motion Dynamics
  • Electrical Engineering and Circuit Design
  • Remote Control Systems and Signal Transmission
  • Gear Ratios and Mechanical Advantage
  • Problem-Solving and Iteration
  • Measurement and Calibration
  • Friction and Traction

Solar Helicopter Project

  • Solar Energy Conversion and Utilization
  • Principles of Flight and Aerodynamics
  • Force and Motion Dynamics
  • Energy Transfer and Storage
  • Design and Engineering Principles
  • Problem-Solving and Iteration
  • Measurement and Calibration
  • Torque and Rotational Motion

Mechanical Maze Project

  • Engineering Design Principles
  • Force and Motion Dynamics
  • Problem-Solving and Critical Thinking
  • Mechanical Linkages and Motion Transfer
  • Balance and Stability
  • Measurement and Precision
  • User Interaction and Game Design

Description

Our STEM Club-in-a-Box KS2 10 Week Club provides everything schools need to run a half term of engaging, hands-on STEM activities for up to 20 children. Each box is packed with pre-prepared kits, detailed lesson plans, and all necessary materials, making it easy for teachers or facilitators to deliver high-quality STEM sessions. These kits are designed to inspire creativity, problem-solving, and teamwork, ensuring students develop key skills in science, technology, engineering, and math while having fun. Perfect for schools looking to offer STEM enrichment without the hassle of sourcing supplies!

How it works: 1. Choose 5 projects. 2. Order via the website or email you order to hello@stemkids.co.uk and we will email you an invoice for your finance manager. 3. Receive everything you need to run an AMAZING STEM club at your school.

What you receive: 20 of each kit (100 kits in total), detailed printed instructions/plans and all materials required to construct the projects. Each project takes approx. 2 hours to construct. We will include 2 spares of each project for free.

 

 

 

Additional information

Wind Energy Powered Home Project

Quantity

20

Motorised Ferris Wheel Project

Quantity

20

Fibre Optic Peacock Project

Quantity

20

Remote Controlled Crane Project

Quantity

20

Mechanical Safe Box Project

Quantity

20

Remote Controlled Balance Bot Project

Quantity

20

Bionic Robot Project

Quantity

20

Remote Control Walking Dinosaur Project

Quantity

20

Mood Lamp Project

Quantity

20

Ping Pong Shooter Project

Quantity

20

Remote Control Retractable Gate Project

Quantity

20

Remote Controlled Car Project

Quantity

20

Solar Helicopter Project

Quantity

20

Mechanical Maze Project

Quantity

20

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