MagiCircuit
The Definitive Tool for Learning in the AI Era Sparking the NGSS Classroom

Fuel Evidence-Based Inquiry with Hands-on Discovery

The Core of MagiCircuit

  • Tangible Magnetic Circuit Platform: A tactile, intuitive hardware system designed to remove technical friction.
  • Support for the NGSS Classroom: Empowering teachers to lead evidence-based inquiry with a standards-aligned solution.
  • Rooting Science into Action: Shifting the focus from passive learning to active, hands-on exploration.
  • Making Concepts Easy to Grasp: Bridging the gap between abstract theories and tangible understanding.

The Bridge to Evidence

"Whenever a concept feels out of reach, MagiCircuit acts as the bridge to tangible evidence. These hands-on moments make the invisible instantly clear, creating a space where students gather facts naturally and gain confidence in their scientific thinking."

Powerful Hands-on Support for the NGSS Framework

"MagiCircuit empowers teachers to spark curiosity and turn theories into active expeditions. Designed to be intuitive and full of wonder, our platform removes technical friction, allowing science to take center stage."

Low Floor, High Ceiling Starts with instant play, yet built to support deep diving and creative applications.
Tactile Thinking Think with your hands. Every connection is a dialogue between hand and mind, sparking insights that evolve over time.
Discovery, Not Troubleshooting Leave the hesitation behind. The joy of learning and personal breakthroughs simply find you through the act of play.
Feedback in Action Action leads to tangible clarity, triggering a chain reaction of doing and growing.
Mastery You Can Carry Gain a powerful platform. Once mastered, its versatility becomes the support for your own creative growth and future innovations.
Scalable Canvas Own your rhythm. Scale up for high-intensity work, or dial back for effortless play. This mastery stays with you—always ready and sharp.

Curriculum Roadmap

Explore our growing series of NGSS-aligned investigation units.

Series 1: Energy to Energy Available Now!

A Hands-on Journey of Energy through Form, Flux, Speed, and Fields

Energy conservation is the fundamental rhythm of the physical world: it manifests dynamics through speed, interacts through force fields, and regulates the interconnectedness of all things through constant transformation and systemic flow, whether traveling through a medium or traversing the vacuum of space.

Performance Expectations (PEs) across our units:

4-PS3-1 (Speed & Energy) Use evidence to explain the relationship between an object’s speed and its energy scale.
4-PS3-2 (Energy Transfer) Observe and prove how energy transfers via light, sound, circuits, and collisions.
4-PS3-3 (Collisions) Ask questions and predict outcomes of energy changes during object collisions (field interactions).
5-PS1-3 (Properties) Identify and classify materials based on properties (conductivity, transparency) to understand how matter regulates energy.
4-PS3-4 (Engineering Design) Design, test, and refine a Kinetic → Electric system to find the "Total System Sweet Spot."

01. Speed for Energy:

The Trend behind Fast and Slow

(4-PS3-1 Speed & Energy)

Quantify the Link Between Motion and Power: Power up a generator using "timed turns" and watch the energy come to life. Visualize the energy scale through LED brightness and wind-driven paper deflection. Collect data to discover how speed dictates power.

Explore Unit →

02. The Bridge of Electricity:

Classifying Matter by Conductivity

(5-PS1-3 Material Properties)

Evidence-Based Conductivity Detection: Turn your circuit into a detector to see which materials let energy flow. Explore how different objects, surface treatments, and composite crafts react to electricity. Build your own classification map based on real evidence—not just how things look.

Explore Unit →

03. The Truth of Collisions:

Non-contact Energy Transfer

(4-PS3-3 Collisions)

Catch the Field Interaction: Use magnets to simulate "force field interactions" and see energy transfer without touching. Discover how speed and mass change the outcome, and predict the path where multiple forces meet.

Explore Unit →

04. Energy Unbound:

Transitions Across Form and Media

(4-PS3-2 Energy Transfer)

Trace the Journey of Energy: Build a bidirectional platform to convert energy: Electric ↔ Light / Sound / Motion. Watch it change forms through different media. Learn to tell heavy "Power" from smart "Signals" to build a practical logic for energy in action.

Explore Unit →

05. Power by Design:

The Total System Sweet Spot

(4-PS3-4 Engineering Design)

Finding the Total System "Sweet Spot":
Don’t just crank harder, but design smarter. Rearrange bulb connections to find the "Sweet Spot" where the generated power meets maximum efficiency. Experience high current magnetic drag and heat loss firsthand as you practice "Engineering Tuning" to balance hardware performance with human factors for the best fit.

Series 2: Light and Unexpected Coming Soon!

Chasing shadows, hacking vision and spectrum, and proposing the photon.

  • Aha! Shadows (Geometry and Color Overlap)
  • The RGB Engine (Pixels, Eye Secrets, and Painting with Light)
  • The Light Thief (Absorption and Leftover Light)
  • Rainbow Clues (Dispersion and Spectral Composition)
  • Stronger Light? (Photoelectric Effect – A Glimpse of Photons)

Series 3: Static Charge and Field Coming Soon!

Separate the charges, sense the signs, store the potential, and apply to technology.

  • Charge Separation (Triboelectric Effect and Universal Attraction)
  • The Electroscope (Charging by Induction and by Contact)
  • Sign Detective (Telling Charge Signs by DIY Circuit)
  • Charge Reservoir (Leyden Jar and Energy Storage)
  • Static at Work (Ionization, Deposition, and Sorting)

Series 4: Current in Action Coming Soon!

Tracing the flow, converting energy, and sensing the field.

  •   Charge Flow (Continuity, Kirchhoff’s Law, and Speed)
  •   Resisting the Flow (Graphite Tracks, Dimming, and Variable Resistance)
  •   Glowing Friction (Heating Effect, Energy Conversion, and Filaments DIY)
  •   Finding Magnetic Field (Oersted’s Discovery, Coils, and Field Orientation)
  •   The Wireless Leap (Smartphone NFC and Wireless Power Transfer)

PS. More on Current: Electricity and Magnetism, ElectroChemistry will be covered in separate series.