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📂 **Category**:
📌 **What You’ll Learn**:
🎓 Zero Barriers to Entry
No software installations, no licenses to purchase, no accounts to manage. Students simply open a browser and start creating.
🔒 Privacy Protected
All student work stays on their device. No data collection, no cloud uploads, no privacy concerns. COPPA and FERPA friendly.
💰 Always Free
No per-seat licensing, no subscription fees, no “educational discounts” that expire. Free forever for everyone.
🌐 Works Everywhere
Chromebooks, tablets, old computers, new computers. Windows, Mac, Linux. If it runs a modern browser, it runs Grid.Space.
📚 Self-Paced Learning
Students work at their own pace. No internet dropouts causing lost work. Tools work offline after initial load.
🔧 Real-World Skills
Industry-standard workflows for 3D printing, CNC machining, and laser cutting. Skills transfer directly to professional tools.
Perfect for Every Learning Environment
K-12 Classrooms
Introduce students to digital fabrication without IT headaches. Works on existing school computers and Chromebooks.
Makerspaces
Unified toolchain for all your equipment. Students learn once, work with multiple machines.
University Labs
Professional-grade CAM and slicing without enterprise licensing costs. Open-source means customizable for research.
Libraries
No software to install or maintain. Patrons use public computers without admin access needed.
Homeschool
Full-featured fabrication tools on family computers. No subscription fees eating into budgets.
After-School Programs
Students continue projects at home on any device. No license restrictions or software gaps.
What Students Can Learn
3D Printing (FDM/SLA)
Model slicing, support generation, print settings optimization, multi-material printing, and troubleshooting failed prints.
CNC Machining
CAM toolpath generation, feeds and speeds, tool selection, roughing and finishing strategies, and machine setup.
Laser Cutting
2D design preparation, power and speed settings, material considerations, layer stacking, and engraving techniques.
3D Modeling
Mesh editing, boolean operations, model repair, geometry analysis, and preparing models for fabrication.
Design Thinking
Iterative design, prototyping, material constraints, manufacturing limitations, and optimization strategies.
Problem Solving
Troubleshooting failed operations, understanding machine limitations, and finding creative solutions to constraints.
How Grid.Space Compares
| Feature | Grid.Space | Typical Commercial Software |
|---|---|---|
| Cost | ✓ Free Forever | Subscription or per-seat licensing |
| Installation | ✓ None Required | Admin rights, IT approval needed |
| Updates | ✓ Automatic | Manual updates, version conflicts |
| Platform Support | ✓ All OS, Chromebooks | Windows/Mac only (usually) |
| Privacy | ✓ 100% Local Processing | Cloud uploads, accounts required |
| Home Access | ✓ Full Access | Limited or requires home licenses |
| Offline Use | ✓ After Initial Load | Varies, often cloud-dependent |
| Source Code | ✓ Open Source (MIT) | Proprietary, locked down |
Getting Started is Easy
For Teachers & Educators:
- No Setup Required: Simply bookmark grid.space and share with students
- Review Documentation: Visit docs.grid.space for tutorials and guides
- Watch Video Tutorials: Check our YouTube channel for walkthroughs
- Join the Community: Get teaching tips and share lesson plans on our forums
- Start Creating: Have students open Kiri:Moto or Mesh:Tool and begin exploring
For Students:
- Open your web browser (Chrome, Firefox, Edge, Safari)
- Visit grid.space/kiri for 3D printing and CNC, or grid.space/mesh for 3D modeling
- Load a 3D model (drag and drop, or use File menu)
- Explore the settings and options
- Generate output for your machine
- Save your work locally (your device, not the cloud)
Curriculum Integration
STEM Standards Alignment
Grid.Space tools support learning objectives across multiple subject areas
Technology & Engineering
- CAD/CAM workflows
- Additive manufacturing
- Subtractive manufacturing
- Design for manufacturing
Science
- Material properties
- Physical processes
- Prototyping for experiments
- Data visualization models
Art & Design
- Digital fabrication techniques
- Form and function balance
- Iterative design process
- Material exploration
Ready to Get Started?
No sign-ups, no approvals, no waiting.
Questions? Email us at admin@grid.space
🔥 **What’s your take?**
Share your thoughts in the comments below!
#️⃣ **#Grid.Space #Education #STEM #Learning #Tools**
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