Fact-checked by Grok 2 weeks ago

Tinkercad

Tinkercad is a free, browser-based application for 3D design, electronics simulation, and block-based , developed by to make digital creation accessible to beginners through an intuitive drag-and-drop interface. It allows users to build 3D models by combining basic shapes, simulate Arduino-based circuits, and generate parametric designs via code blocks, with features like exporting models for or further editing in advanced software. Primarily targeted at students, educators, hobbyists, and young makers, Tinkercad supports learning by integrating design, electronics, and programming in a single platform without requiring software downloads or high-end hardware. Founded in 2011 by entrepreneurs Backman and Mikko Mononen, Tinkercad launched publicly on March 26 of that year with the goal of democratizing for non-experts. The startup initially gained traction as an easy entry point to CAD tools but faced shutdown in early 2013 due to resource constraints; acquired it on May 18, 2013, to preserve and expand its community-driven ecosystem. Under 's ownership, Tinkercad has evolved with additions like circuit simulation in 2017 and recent tools such as sketching for in 2025, while maintaining its core focus on . Since its inception, Tinkercad has introduced over 75 million users worldwide to design and making technologies, with over 600 million designs created as of 2025, including more than 100 million by 2016 alone, and sustained growth in classroom adoption. Its open gallery fosters sharing and remixing of projects, contributing to a vibrant community that spans K-12 , maker spaces, and introductory courses.

History

Founding and Early Years

Tinkercad was founded in 2011 by Kai Backman, a former engineer, and Mikko Mononen through their company Labs, with the primary goal of making accessible to non-experts and a broad audience beyond traditional CAD users. The platform publicly launched on March 26, 2011, as the first fully browser-based 3D design tool, eliminating the need for software downloads or installations. From its inception, Tinkercad emphasized simplicity in browser-based 3D design, allowing users to create models through intuitive drag-and-drop interfaces with basic geometric shapes and operations for combining, subtracting, or intersecting forms. This approach targeted hobbyists, educators, and beginners, enabling quick prototyping for without steep learning curves associated with professional tools. The core features, including shape libraries and real-time previews, were rolled out immediately upon launch, fostering an online community gallery for sharing designs. In its early years, Tinkercad saw rapid adoption, attracting thousands of users by through its free accessibility and integration with emerging ecosystems, which helped establish it as a popular entry point for makers. However, the startup faced significant sustainability challenges, including limited revenue from its model, as users resisted paid subscriptions despite the tool's popularity. On March 27, 2013, the founders announced plans to discontinue development and gradually shut down the service over the following year, with full closure planned for June 2014, to pivot resources toward a new simulation project called , prompting widespread disappointment and backlash from the maker community that valued its ease of use. This near-closure was averted when acquired Tinkercad later that year, rescuing the platform and its user base.

Acquisition by Autodesk

On May 18, 2013, Autodesk announced it had signed a definitive agreement to acquire Tinkercad, aiming to expand its 123D family of consumer-facing 3D design applications by incorporating the startup's intuitive, browser-based 3D modeling technology. The acquisition came amid Tinkercad's earlier announcement of an impending shutdown due to funding challenges, positioning Autodesk's move as a timely intervention to preserve the platform and its user community. Autodesk's motivations centered on revitalizing Tinkercad to prevent its extinction while aligning it with the company's broader goal of democratizing for non-experts, including hobbyists and educators. By integrating Tinkercad's web-native tools and into the , Autodesk sought to enhance accessibility and foster innovation in cloud-based CAD, ultimately supporting future products like Fusion 360. Following the acquisition, which closed within 30 days, Tinkercad's service was immediately restored, with the shutdown plan rolled back to allow new user sign-ups and uninterrupted access for existing accounts. The platform remained free for all users, with unlimited model capabilities, and benefited from 's infrastructure for improved operational stability and ongoing maintenance. Tinkercad founder Kai Backman and his team joined to continue leading development, ensuring continuity in the platform's evolution under the new ownership.

Growth and Key Milestones

Following its acquisition by in 2013, Tinkercad experienced sustained growth as an accessible entry point to and engineering tools within the Autodesk ecosystem. By 2021, the platform had introduced nearly 37 million users to , , and , with a strong emphasis on educational outreach through partnerships with schools and programs. This user base expanded significantly, reaching over 100 million people worldwide by 2025, driven by free access and integration into curricula that foster creative problem-solving among students and hobbyists. Key milestones under include the introduction of Tinkercad Circuits in May 2017, incorporating features from the discontinued 123D Circuits, which enabled and broadened the platform's appeal beyond to include prototyping without physical hardware. In June 2018, Tinkercad launched Codeblocks, a block-based programming interface that allows users to generate procedural shapes visually, enhancing computational design capabilities for beginners. The platform marked its 10-year anniversary in March 2021, reflecting on its mission to democratize making and design education, with celebrations highlighting over 300 million user-created designs and commitments to . In 2025, Tinkercad introduced version history and project recovery features in May, allowing users to revert designs to previous states and duplicate projects from specific timestamps, improving workflow reliability for iterative work. That same month, the working area was expanded to 2,000 x 2,000 x 2,000 units from the prior 1,000-unit limit, accommodating larger-scale projects while adding new scale options for precise adjustments. By September 2025, updates to export workflows and advanced tools extended capabilities beyond entry-level , including enhanced revolve and functions for more complex modeling. In October 2025, the revolve tool was further upgraded to support partial revolves, improving options. Tinkercad's integration with the broader ecosystem has further supported its growth, enabling seamless exports to tools like for advanced editing and direct links to services for fabrication. These connections have reinforced its role in educational and professional pipelines, facilitating transitions from to .

Concept and Design Philosophy

Core Purpose and Accessibility

Tinkercad serves as a web-based application designed to introduce users to foundational skills in , , and , acting as an entry point to Autodesk's broader ecosystem of design and manufacturing technologies. Launched with the goal of democratizing access to 3D design, it enables beginners to experiment without the barriers of traditional software. Its core purpose emphasizes accessibility and ease of entry, requiring no software downloads or installations and operating seamlessly in any modern on devices including desktops, laptops, and touch-enabled tablets. The interface employs intuitive drag-and-drop mechanics, allowing users to build designs through simple shape combinations and basic operations like grouping, flipping, and aligning, which prioritize over advanced precision. Targeted primarily at students, educators, and hobbyists, Tinkercad requires no prior experience in (CAD), making it suitable for those new to digital creation tools. This focus aligns with a "tinkering" philosophy that encourages playful experimentation and iterative learning, fostering creativity and problem-solving in an approachable environment rather than enforcing rigorous standards.

Integration of Disciplines

Tinkercad adopts a holistic approach by allowing users to models, embed virtual electronic circuits, and program interactive behaviors all within a single browser-based environment, enabling seamless transitions between these domains without switching tools. Originally launched in as a web-based platform, Tinkercad expanded its scope following its acquisition by in May 2013, incorporating electronics simulation and block-based coding features to create a multidisciplinary toolset. This integration is exemplified in projects such as designing 3D-printable enclosures for microcontrollers, where users model custom housings around simulated circuit components, or employing Codeblocks to generate shapes that respond dynamically to inputs from sensors like light or motion detectors. By bridging digital fabrication, , and , Tinkercad fosters (, , , , and ) learning, empowering beginners—particularly students—to explore interdisciplinary concepts through hands-on, creative projects.

Features

3D Modeling Tools

Tinkercad's tools provide an intuitive platform for creating digital designs using basic geometric as building blocks, enabling users to shapes such as cubes, spheres, cylinders, and cones directly onto a workspace. These can be manipulated through simple controls for resizing, rotating, and positioning, with alignment functions ensuring precise placement relative to other objects. Grouping allows multiple shapes to be treated as a single unit for easier management, while the workplane feature facilitates accurate alignment by snapping objects to a or custom plane, using a ruler tool for dimensioning. For more complex designs, Tinkercad supports advanced operations, including unions to merge shapes, intersections to create overlapping forms, and subtractions (or "holes") to carve out sections from solid objects, allowing the construction of intricate models from simple components. Shape generators extend these capabilities, such as the text tool for embedding customizable lettering and the scribble feature for freehand drawing that converts sketches into extrusions. In early 2025, the introduction of Tinkercad Sketching added 2D drawing tools, including pens and editing options, to transform profiles into models, further enhancing creative workflows. Later that year, the Revolve tool was updated to support partial revolutions, enabling efficient generation of symmetrical parts like wheels or vases from sketched profiles. Tinkercad's Sim Lab feature, introduced in 2023, provides a free physics simulation engine that allows users to add dynamic motion, gravity, and material properties to 3D designs for testing interactions such as collisions, momentum, and forces in a virtual environment. Users can apply parameters like object mass, friction, and elasticity to simulate real-world physics behaviors, enabling iterative design testing without physical prototypes and enhancing the overall modeling workflow by bridging design and simulation. Updates in 2024 expanded Sim Lab with tools like tracers for visualizing motion paths and customizable gravity settings, further supporting educational and experimental applications. The typical workflow begins with importing pre-made shapes from the community gallery or creating new ones, followed by manipulation via drag, resize, and rotate handles to refine the model. Users can then apply operations and generators to build complexity before exporting the design in formats like STL or , optimized for . A significant 2025 update expanded the workspace to 2,000 units—doubling previous limits—and introduced options for real-world sizing, accommodating larger projects without compromising . Despite these advancements, Tinkercad's tools prioritize accessibility for beginners, capping resolution and polygon counts to maintain simplicity, which limits high-poly modeling or detailed organic surfaces better suited to professional software. This design choice ensures low learning curves but may require exporting to tools like Autodesk Fusion for advanced refinement. Briefly, models created here can integrate with Tinkercad's circuits simulation to embed electronics within designs.

Circuits Simulation

Tinkercad's Circuits Simulation module offers a browser-based platform for creating, programming, and testing virtual electronic circuits, enabling users to experiment with electronics without requiring physical components or hardware. Launched in 2017, this feature expands Tinkercad's capabilities beyond 3D modeling by providing an interactive 2D workspace where users drag and drop elements to build schematics on virtual breadboards. The tool supports real-time simulation, allowing immediate feedback on circuit behavior, which is particularly useful for prototyping and debugging designs iteratively. The components library in Circuits Simulation includes a curated selection of commonly used parts to facilitate beginner-friendly projects while covering essential functionalities. Microcontrollers such as and serve as central processing units, enabling programmable interactions. Passive components like resistors, capacitors, and diodes provide foundational circuit elements, while active devices including LEDs, pushbuttons, and add interactivity. Sensors, such as photoresistors for detection and temperature sensors, allow environmental responsiveness, and wiring tools along with breadboards simplify connections without . This library is mapped to professional tools like Fusion 360's electronics workspace, ensuring compatibility for advanced workflows. Simulation features emphasize practical testing and , with built-in tools for visualizing electrical properties in . Users can measure voltage and across components using a virtual , observing flows and drops dynamically as the runs. For microcontroller-based designs, an integrated code editor supports block-based or text programming in languages like C++, with direct upload and execution to simulate behaviors such as LED blinking or data processing. These capabilities allow troubleshooting issues like short circuits or incorrect wiring before physical implementation. Circuits Simulation integrates seamlessly with Tinkercad's design environment, permitting users to embed simulated circuits into custom models for creating printable projects with built-in , such as interactive enclosures for batteries or switches. This combination supports end-to-end prototyping, from virtual testing to -printed outcomes. Educationally, the module excels in learning by offering guided, step-by-step simulations that demonstrate principles like — for instance, adjusting resistor values in a basic to observe proportional changes in current—fostering understanding of circuitry without the risks or costs of real hardware.

Codeblocks Programming

Tinkercad Codeblocks is a visual programming environment launched in June 2018 that enables users to create and automate designs through drag-and-drop code blocks. This feature introduces computational design principles to beginners by allowing the assembly of blocks representing variables, loops, mathematical functions, and shape manipulations without requiring traditional text-based . Initially released in , it transitioned to full availability, providing an accessible entry point for in a web-based interface. The primary capabilities of Codeblocks include generating repeatable patterns and objects, such as customizable or arrays of shapes, by leveraging loops and variables to define dimensions and repetitions dynamically. Users can animate models in real-time previews, observing changes as blocks are adjusted, which facilitates experimentation. Additionally, it supports programmatic control of circuits through hybrid projects, where 3D models generated via blocks integrate with simulated electronic components for interactive simulations, such as a system combining modeled enclosures with LED logic. Codeblocks employs a block-based syntax inspired by platforms like , where users snap together visual elements—such as "create sphere" or "rotate" blocks—to build sequences that execute in a . This approach emphasizes logical flow over syntax errors, with blocks categorized into sections like shapes, math operations, and controls for seamless assembly. Designs can be exported as STL or files for , or imported into Tinkercad's 3D editor as reusable shapes, enhancing workflow integration. To accommodate a gentle , Tinkercad provides interactive tutorials and starter activities within its learning center, guiding users from basic block stacking to complex creations, making it suitable for novices transitioning to advanced designs without prior programming experience. These resources include step-by-step projects that build conceptual understanding, such as using variables for scalable patterns, fostering skills in applicable to both and basic circuit interactions.

Technical Aspects

File Formats and Compatibility

Tinkercad supports importing 3D models in STL and formats, as well as 2D in format, which can be extruded into 3D shapes. imports must consist of linework only, with a limit of 4 , and do not support embedded image data, clipping paths, or fills beyond basic path extrusion. Users can indirectly import raster images for tracing by first converting them to using external tools like or online converters, then importing the resulting file. For exports, Tinkercad provides options tailored to different workflows: 3D designs can be exported as STL for standard 3D printing, OBJ for multi-color printing (including a ZIP file with MTL for materials), GLTF for web-based digital sharing and AR viewing, USDZ for iPad compatibility, and SVG for 2D projections suitable for laser cutting. Circuit designs export to BRD for PCB fabrication, PDF for documentation and schematics, and CSV for simulation data. Codeblocks projects follow similar 3D export options as the main editor, including STL, OBJ, GLTF, SVG, and Shape scripts for programmatic reuse. Tinkercad integrates seamlessly with other Autodesk software, allowing direct transfer of native designs to for advanced editing, simulation, and manufacturing without intermediate file exports. However, compatibility is limited to basic shapes and assemblies; complex or features may lose editability upon transfer or export to mesh formats like STL and , requiring conversion tools for CAD interoperability. In 2025, Tinkercad updated its export functionality to improve workflow efficiency, including ceasing automatic union grouping of designs in August for more flexible post-processing and enhancing export options in September to better support emerging printers through refined STL and outputs.

System Requirements and Limitations

Tinkercad operates as a web-based application, requiring a stable connection and compatible for all functionality, including rendering and simulations. Supported browsers include the latest versions of , Mozilla Firefox, , and , with enabled as a mandatory requirement for and visualization features. Users can verify support by visiting get.webgl.org, where a spinning indicates compatibility; without it, operations will not function. Compatible operating systems encompass Microsoft Windows 10 or 11, Apple macOS High Sierra 10.13.2 or later, and Google Chrome OS on Chromebooks. Tinkercad also offers a dedicated app compatible with any , , or running or higher, though performance varies by model. On the hardware side, a supporting is essential, along with at least 4 GB of recommended for smooth performance during simulations and modeling; lower specifications may lead to lag, particularly with complex designs. The responsive interface allows use on tablets and mobile devices, though optimal experience requires a or with a capable GPU for rendering. Key limitations include the absence of an offline mode, as all processing, including shape operations and simulations, relies on cloud servers. File imports are capped at approximately 25 to maintain , with larger files needing external reduction via tools like Meshmixer before use. In circuits simulation, the tool employs a cycle-accurate running at 16 kHz for digital components, but analog elements introduce delays, potentially slowing execution on intricate circuits and trading some accuracy for and speed. For better performance, users should employ the latest browser, disable unnecessary extensions to reduce load, and simplify large circuits by grouping components or running simulations in segments, thereby minimizing local device strain through Tinkercad's cloud-based computations. Low-end devices may experience lag with extensive models, so starting with basic designs helps build efficiency.

Applications and Impact

Educational and STEM Integration

Tinkercad provides a comprehensive suite of educational resources through its Learning Center, which includes interactive tutorials, step-by-step lessons, and project-based challenges designed to build skills in 3D design, electronics, and coding. These resources feature video-guided walkthroughs for beginners, such as creating basic shapes or simulating circuits, and more advanced prompts like designing functional gadgets, all accessible directly within the platform to facilitate self-paced learning. Additionally, Tinkercad's lesson plans are standards-aligned to frameworks like ISTE and Common Core, enabling teachers to deliver project-based content that integrates seamlessly into classroom workflows. For school integration, Tinkercad Classrooms supports easy student onboarding via links or codes and connects with platforms like Google Classroom through a dedicated add-on, allowing educators to assign designs, monitor progress, and grade submissions without leaving their learning management system. In education, Tinkercad facilitates interdisciplinary projects that merge with physics concepts, such as designing simple machines like levers, pulleys, and inclined planes to demonstrate mechanical principles. These activities encourage students to apply real-world physics by simulating forces and motion in virtual environments before prototyping with . Similarly, the platform's Codeblocks feature introduces through block-based , where learners create animations or interactive simulations that reinforce logic and problem-solving skills. For instance, projects combining with allow students to program responsive circuits, fostering an understanding of how digital tools intersect with physical sciences. Tinkercad has seen widespread adoption in K-12 classrooms as a tool for maker , where it supports hands-on, creative learning in subjects ranging from to . Partnerships with organizations like CREATE Education enhance this adoption by providing curated project ideas, such as cross-curricular designs that incorporate Tinkercad for in topics like history or , promoting maker spaces in schools. By 2025, Tinkercad boasts over 75 million users worldwide, with a significant portion attributed to educational use in fostering and skills among students. Research highlights Tinkercad's positive impact on student in , with studies showing it boosts and attitudes toward learning. For example, a study on middle school students found that using Tinkercad for activities resulted in high levels of , with participants appreciating its intuitive interface for developing problem-solving skills. In elementary settings, integrating Tinkercad with correlated positively with improved attitudes, as students reported greater interest in and through hands-on projects. Another investigation in demonstrated that combining Tinkercad simulations with physical experiments enhanced first-year students' and conceptual understanding. Recent as of 2025 continues to support these findings, with studies showing Tinkercad improves in STEM-TPACK and in educational when integrated with tools like mBlock. These findings underscore Tinkercad's role in making abstract concepts tangible and enjoyable for young learners. In 2025, launched the Teaching with Tinkercad Webinar Series, exploring integration in and to further transform classroom practices.

Hobbyist and Professional Uses

Tinkercad serves as a versatile platform for hobbyists engaging in do-it-yourself (DIY) projects, where users leverage its intuitive interface to create custom gadgets and 3D-printed art pieces. The community's gallery, hosting over 9 million shared designs, enables hobbyists to upload, remix, and download models ranging from functional tools to artistic sculptures, promoting creative experimentation without requiring advanced software skills. For instance, enthusiasts design personalized enclosures for Internet of Things (IoT) devices, such as protective cases for Raspberry Pi sensors, which can be directly exported as STL files for 3D printing. Similarly, parametric jewelry design is popular among hobbyists, with users employing Tinkercad's Codeblocks to generate customizable rings and pendants that support both 3D printing and laser cutting workflows. In professional contexts, Tinkercad facilitates in makerspaces and small workshops, allowing designers to quickly iterate on early-stage product concepts before transitioning to more complex tools. Its seamless integration with services, through formats like STL and , streamlines the path from digital model to physical prototype, making it ideal for vocational applications in product development. Professionals in fields like and custom fabrication use it to mock up enclosures and assemblies, reducing time to market for small-scale innovations. The platform's community features further bridge hobbyist and professional pursuits through forums and challenges that encourage collaboration and idea-sharing. Tinkercad hosts periodic design challenges, such as the Spinning Top Challenge, where participants create printable or simulatable models using advanced tools like the Revolve feature, often leading to shared innovations applicable to both personal and vocational projects. Users can export designs to Autodesk's professional software, like , enabling scaling from hobbyist prototypes to industrial-grade production. With over 75 million users worldwide, including a significant portion of hobbyists and makers, Tinkercad continues to support diverse non-educational applications.

References

  1. [1]
    Autodesk Tinkercad
    Tinkercad is a free web app for 3D design, electronics, and coding. We're the ideal introduction to Autodesk, a global leader in design and make technology.Login · Community gallery · Learning Center · 3D Design
  2. [2]
    Learn how to use Tinkercad
    Tinkercad is a free web app for 3D design, electronics, and coding. We're the ideal introduction to Autodesk, a global leader in design and make technology.
  3. [3]
    Ten Years of Making, Ten Years in the Making - Tinkercad
    Mar 21, 2021 · Since its public launch on March 26, 2011, Tinkercad has introduced more than 35 million people to the world of 3D design, electronics, and coding.
  4. [4]
    Autodesk to Acquire Tinkercad, Easy-to-Use Web-Based 3D Design ...
    May 18, 2013 · Autodesk, Inc. (NASDAQ: ADSK) has signed a definitive agreement to acquire Tinkercad, an easy-to-use browser-based 3D design tool.
  5. [5]
    Introducing Tinkercad Sketching: Transform Your Ideas from 2D to 3D
    Feb 6, 2025 · Tinkercad Sketching allows drawing 2D profiles to create 3D models, using drawing pens and editing tools, and enhances the 3D workspace.Missing: usage | Show results with:usage
  6. [6]
    Tinkercad Celebrates 1 Million Users - In the Fold - Autodesk Blogs
    Aug 20, 2015 · As of today, more than 1 million people are using Tinkercad. ... Since joining the Autodesk family of products in 2013, we've been delighted by ...
  7. [7]
    TinkerCAD | IEEE Pikes Peak Section
    Tinkercad was originally created in 2011 by a software company called Airstone Labs, co-founded by Kai Backman and Mikko Mononen. The platform was designed ...
  8. [8]
    [PDF] Physics 524 Unit 4a: 3D structure modeling: TinkerCad, Cura
    Tinkercad was founded by former Google engineer Kai Backman and his cofounder Mikko Mononen, with a goal to make 3D modeling, especially the design of ...
  9. [9]
    Tinkercad announces its closure | 3D Printing Blog | i.materialise
    Only one hour ago we heard the sad news about Tinkercad its closure. The founders decided to concentrate on a new simulation environment called Airstone.Missing: 2013 backlash
  10. [10]
    https://courses.physics.illinois.edu/phys524/fa2024/phys524_units/4/4a.pdf
  11. [11]
    Tinkercad revolutionizes 3D design in the web browser - 3Druck.com
    Feb 1, 2012 · On the puristically designed interface, you can edit existing 3D models from other users or create your own model from scratch. With simple drag ...
  12. [12]
    Tinkercad Browser-based 3D design platform #3DThursday ...
    Mar 13, 2014 · Tinkercad was founded in by Kai Backman and Mikko Mononen in 2011, bringing the first browser-based 3D design platform to the masses. In ...
  13. [13]
    Tinkercad to Close Shop - Make:
    Mar 27, 2013 · Kai Backman, company founder and CEO, said they couldn't continue to develop and maintain both platforms and had to choose. “We eventually ...<|separator|>
  14. [14]
    Why TinkerCad is shutting down - Cubehero Blog
    Mar 28, 2013 · There are two major parts to the new roadmap: 1) we are working on an innovative new simulation environment called Airstone, and 2) we will be ...Missing: community backlash
  15. [15]
    Tinkercad Shuts Down - Fabbaloo
    They've published a gradual shutdown sequence that commences very soon: Effective immediately we have closed sign-ups for new users; April 30 ...Missing: backlash | Show results with:backlash
  16. [16]
    March | 2013 | Cubehero Blog
    Mar 25, 2013 · Tinkercad announced they were shutting down and pivoting to a different product, which was a disappointment to many users and fans of the easy ...
  17. [17]
    Autodesk Purchases, Revives 3-D Design App Tinkercad | WIRED
    May 18, 2013 · On Saturday, Autodesk announced it is purchasing Tinkercad and reinstating the service. The move comes in time to prevent the previously announced shutdown.Missing: community backlash
  18. [18]
    Tinkercad and You: 2020-21 Year in Review
    Jun 22, 2021 · When Tinkercad joined the Autodesk family in 2013, we saw a simple product with a powerful story to tell. Today, Tinkercad is home to over 300 ...
  19. [19]
    Circuits - Tinkercad
    Tinkercad is a free web app for 3D design, electronics, and coding. We're the ideal introduction to Autodesk, a global leader in design and make technology.
  20. [20]
    An Introduction to Tinkercad Codeblocks | Custom - Maker Pro
    Dec 19, 2018 · Tinkercad Codeblocks, released in June 2018 and recently out of beta, allows you to procedurally generate shapes using visual programming.
  21. [21]
    https://www.tinkercad.com/circuits
  22. [22]
    New Scale options and larger workspace for building BIGGER in ...
    May 12, 2025 · We expanded the design boundary limits to 2,000 X 2,000 X 2,000 units (previously 1,000 X 1,000 X 1,000). We added new Scale options in the ...
  23. [23]
    New Tinkercad Features Expand Capabilities Beyond Entry-Level ...
    Sep 8, 2025 · Sketching is the key to starting most CAD projects in advanced tools, and now you can do so in Tinkercad, too. The sketch tool allows the ...
  24. [24]
    Update to 3D Export and New Workflows - Tinkercad
    Sep 3, 2025 · Update to 3D Export and New Workflows. Christian: Sep 3, 2025. Tinkercad has recently made some updates to how shapes are exported from the 3D ...Missing: capabilities | Show results with:capabilities
  25. [25]
    Fusion - Tinkercad
    Fusion is a cloud-based 3D modeling, CAD, CAM, CAE, and PCB software platform for professional product design and manufacturing.Missing: integration ecosystem
  26. [26]
    CAD Software for 3D Printing - Autodesk
    Discover how Autodesk CAD software streamlines 3D printing with powerful CAD tools. From beginner-friendly designs with Tinkercad to advanced modeling with ...Missing: ecosystem | Show results with:ecosystem
  27. [27]
    https://www.youtube.com/watch?v=_xcekh2kLFg
  28. [28]
    Free CAD Software for Students & Teachers, and Personal Use
    Tinkercad is a beginner-friendly, browser-based CAD tool that has become a favorite among educators, students, and hobbyists. Its intuitive drag-and-drop ...2D CAD drafting & drawing · Online CAD Software
  29. [29]
    Arduino Uno case - Tinkercad
    3D design Arduino Uno case created by Adam Janeček with Tinkercad.
  30. [30]
    Code a Traffic Light in Tinkercad Codeblocks & Circuits
    Nov 21, 2020 · This guide uses Tinkercad's Codeblocks to create a 3D traffic light model and Circuits to create a simulated circuit with LEDs.
  31. [31]
    Codeblocks - Tinkercad
    Quick Start Guide to Codeblocks. Tinkercad's computational design workspace is the simplest place to make 3D models using draggable blocks of code. Launch the ...Launch the Guide · Tutorials · Basket · Read More
  32. [32]
    STEAM Projects to Make at Home - Tinkercad
    Mar 29, 2020 · STEAM projects include science, technology, engineering, art, and math, using household materials and some Tinkercad projects.
  33. [33]
    Tinkercad at School: Where Fun Meets Learning | Autodesk University
    In this class you will get to know experiences and effective practices around the introduction of Tinkercad in its use for teaching several STEAM topics.Missing: target hobbyists
  34. [34]
    3D Design - Tinkercad
    Tinkercad is a free web app for 3D design, electronics, and coding. We're the ideal introduction to Autodesk, a global leader in design and make technology.
  35. [35]
    Let's Learn Tinkercad!
    Tinkercad is a free web app for 3D design, electronics, and coding. We're the ideal introduction to Autodesk, a global leader in design and make technology.
  36. [36]
    Learn 3D Design - Tinkercad
    Tinkercad is a free web app for 3D design, electronics, and coding. We're the ideal introduction to Autodesk, a global leader in design and make technology.<|separator|>
  37. [37]
    UPDATED: Sketch, Spin, Create: Revolve Is Here! - Tinkercad
    Oct 15, 2025 · No matter what kinds of things you model in the Tinkercad 3D workspace, Revolve sketch will help you save time by allowing you to create ...
  38. [38]
    New Tinkercad Update Lets You Design Big - All3DP
    May 13, 2025 · A new Tinkercad update lets you massively scale up your designs. In addition to quadrupling the possible size of your workspace (now 2,000 units ...
  39. [39]
    Tinkercad Circuits - YouTube
    Jun 22, 2017 · Check out our new Tinkercad Circuits features! Now you can incorporate 3D-printable holders for coin-cell batteries, switches, ...
  40. [40]
    Official Guide to Tinkercad Circuits
    Aug 5, 2021 · Tinkercad is a free web app for 3D design, electronics, and coding. We're the ideal introduction to Autodesk, a global leader in design and make technology.
  41. [41]
    Is there a list of all of the components available in Tinkercad Circuits?
    Tinkercad Circuits includes components like Resistors, Capacitors, Pushbuttons, LEDs, and various sensors, motors, and microcontrollers.
  42. [42]
    Choose Sensor Substitutes in Tinkercad Circuits
    Jul 29, 2020 · By design, Tinkercad Circuits contains a limited library of commonly used electronics components. This curation makes it easy for beginners ...
  43. [43]
    Explore Micro:bit With Tinkercad
    Nov 9, 2020 · Tinkercad's Circuits editor allows students to program and simulate a micro:bit, connect it to virtual components, and use a block-style code ...
  44. [44]
    Send-to-Fusion for Electronics - Tinkercad
    Dec 6, 2021 · All Tinkercad components in the Circuits library are mapped to Fusion 360's components library, Library.io, so you can be sure all your ...Send-To-Fusion For... · Start In Tinkercad · Do More In Fusion 360
  45. [45]
    https://www.youtube.com/watch?v=k5kkkhCKr4g
  46. [46]
    https://www.tinkercad.com/blog/official-guide-to-tinkercad-circuits
  47. [47]
    Series and Parallel Circuits - Tinkercad
    In this tutorial, we'll learn about two fundamental types of circuits - series and parallel circuits - and find out how to apply them to most efficiently ...
  48. [48]
    Official Guide to Tinkercad Codeblocks
    Mar 25, 2022 · Codeblocks is a simple way to create repeatable patterns and complex designs using variables and parameters. (And a bit of math, too!)
  49. [49]
    https://www.tinkercad.com/blog/explore-microbit-with-tinkercad
  50. [50]
    Codeblocks Quick Start in Help Center - Tinkercad
    Codeblocks is a Tinkercad workspace for making 3D models using draggable code blocks. Create a design, then stack, run, and review blocks to build your model.
  51. [51]
    Learn Codeblocks TinkerCAD - How to make Models with Code
    Feb 13, 2022 · ... shapes that would be incredibly time consuming in other CAD packages. In a similar way to parametric modelling, codeblocks can be used with ...Missing: sensors | Show results with:sensors
  52. [52]
    Learn Codeblocks - Tinkercad
    Learn how to design and print in 3D, code, and create circuits using our free, easy-to-use app Tinkercad.Missing: curve | Show results with:curve
  53. [53]
    How do I import or export files on the Tinkercad iPad app?
    You may import 3D files in STL or OBJ format into Tinkercad. You may also import 2D SVGs in vector format as extruded shapes into the Tinkercad app.
  54. [54]
    How to Import and Export SVG Files in Tinkercad
    Dec 15, 2021 · Tinkercad export options include: STL, OBJ, GLTF, USDZ (iPad app only), and SVG. To learn more about these different file types, read the ...
  55. [55]
    Importing SVGs into Tinkercad in Help Center
    SVG files should only contain vectors or linework. Tinkercad does not support SVG import of image data, clipping paths, or fill data within the SVG.
  56. [56]
    Importing and Exporting in TinkerCAD - Boise State University
    To import, click 'Import' and drag/drop a file. To export, click 'Export' and select .STL for 3D print.
  57. [57]
    Tinkercad export filetypes explained in Help Center
    Tinkercad exports STL for 3D printing, OBJ for multi-color 3D printing, GLTF for digital sharing, USDZ for iPad app, and SVG for 2D graphics.
  58. [58]
    TinkerTips: Export Options - Tinkercad
    Jun 6, 2022 · There are a variety of export options between 3D Designs, Circuits, and Codeblocks. Here is a quick look at all of them!
  59. [59]
    Send Your Tinkercad Design to Fusion 360
    Apr 21, 2023 · With Tinkercad, you can easily send your design directly to Fusion 360. Once in the Fusion 360 workspace, you can use a powerful set of tools to modify your ...
  60. [60]
    Export from TinkerCAD to Fusion360 - Autodesk Community
    Dec 17, 2022 · Transfer from TinkerCAD to Fusion360 only supports basic shapes. As in the examples given by others, it seems that the only way to export shapes ...
  61. [61]
    Can You Use Tinkercad Offline? - All3DP
    Apr 13, 2024 · In this article, we'll explain what Tinkercad is, why it and other browser-based CAD software might not work offline, and discuss the free ...Missing: mode | Show results with:mode
  62. [62]
    What are Tinkercad's Browser, Platform, and Hardware requirements?
    Microsoft Windows 10, 11. Apple MacOS High Sierra 10.13.2 or later. Google Chrome OS on Chromebooks. Browsers that work best with Tinkercad:.
  63. [63]
    How can I check if my browser supports running Tinkercad?
    1. Go to http://get.webgl.org to confirm that WebGL is actually enabled. You should see a spinning cube if your browser supports it. 2. Check your browser's ...
  64. [64]
    Tinkercad
    Tinkercad is a free web app for 3D design, electronics, and coding, trusted by over 100 million people around the world. Build STEM confidence by bringing ...Community gallery · Learning Center · Circuits · What are Tinkercad's Browser...
  65. [65]
    6: Importing & Exporting - Introduction to 3D Modeling & Design
    Jun 7, 2022 · Your file must be in stl, obj, or svg format and be less than 25MB. If your file is larger than this size Tinkercad will give you an error and ...
  66. [66]
    Why is my Circuit simulation so slow? in Help Center - Tinkercad
    The simulator is cycle-accurate, meaning it runs at 16khz, BUT only if you give your browser some additional time to simulate the analog parts of your circuit.Missing: trade- offs
  67. [67]
    TinkerCAD Learning Center - EdTech Books
    TinkerCAD's easy-to-use Learning Center focuses on instruction through basic skill walkthroughs, step-by-step project-based lessons, and video tutorials.
  68. [68]
    Tinkercad Lesson Plans in Help Center
    Tinkercad lesson plans enable teachers to select and deliver standards-aligned, project-based learning content directly to their students inside Tinkercad.
  69. [69]
    Teachers - Tinkercad
    Tinkercad is a free web app for 3D design, electronics, and coding. We're the ideal introduction to Autodesk, a global leader in design and make technology.
  70. [70]
    Tinkercad add-on for Google Classroom in Help Center
    The Tinkercad add-on streamlines Tinkercad assignments in Google Classroom, allowing teachers to attach designs, and students to sign in with Google ...
  71. [71]
    Tinkercad Google Add-on for your Google Classroom Assignments
    May 30, 2025 · The Tinkercad add-on allows teachers to attach designs, students to "Copy and Tinker", and turn in/grade assignments directly within Google ...
  72. [72]
    7 Simple machines - Tinkercad
    The simple machines I Included in this Design are inclined plane, lever, wedge, wheel and axle, pulley, and screw. Remixed 348 times.
  73. [73]
    Autodesk and STEM - Tinkercad
    Aug 26, 2025 · Learn more about how STEM can help students and what Autodesk is doing to aid in their furthered education.Missing: target hobbyists
  74. [74]
    The use of Tinkercad and 3D printing in interdisciplinary STEAM ...
    Jun 5, 2024 · This study explores using Tinkercad and 3D printing in STEAM education, focusing on engineering design to solve problems, and the teachers' ...
  75. [75]
    How AI CAD Tools Are Transforming STEM Education in K-12 ...
    Jul 2, 2025 · Integrating CAD in elementary, middle, and high school STEM programs helps prepare students for careers in engineering, architecture, robotics, ...
  76. [76]
    10 STEM Example Tinkercad Projects - CREATE Education
    In this blog we look at 10 different design ideas that could be used to integrate Tinkercad and 3D printing into the cross-curricular classroom.
  77. [77]
    [PDF] Effect of Tinkercad on Students' Computational Thinking Skills and ...
    ABSTRACT. This study was conducted to determine the effect of Tinkercad use in computer programming education on students ' computational thinking skills ...
  78. [78]
    Exploring the impact of 3D printing integration on STEM attitudes in ...
    Aug 11, 2023 · The study found positive perceptions of 3D printing integration, and student perception was positively correlated with STEM attitudes. Teachers ...Missing: studies | Show results with:studies
  79. [79]
    https://www.tinkercad.com/blog/stem-shaping-future
  80. [80]
    Community gallery - Tinkercad
    Tinkercad is a free web app for 3D design, electronics, and coding. We're the ideal introduction to Autodesk, a global leader in design and make technology.Circuits · Codeblocks · Sketchy Rexy · Robot 1 - SIM LAB
  81. [81]
    How to Create 3D-Printed Enclosures With Tinkercad | Custom
    Dec 4, 2018 · This article provides some tips and tricks to help turn your Tinkercad design into a full-fledged 3D-printed enclosure.
  82. [82]
    Tinkercad Projects - Instructables
    No matter your skills or interests—electronics, woodworking, jewelry making, or beyond—you'll find plenty of projects to spark ideas and fuel your own ...
  83. [83]
    Challenges - Tinkercad
    Spinning Top Challenge. Create a spinning top using the new Revolve Tool that can either be 3D printed or launched in Sim Lab. Closes Dec 15th.Challenges Archive · Summer Scene Challenge · Sensors ChallengeMissing: community gallery forums
  84. [84]
    Tinkercad Sim Lab Introduction
    Official blog post introducing Sim Lab, detailing physics simulation for 3D designs including movement, gravity, and interactions.
  85. [85]
    Getting Started with Sim Lab
    Official guide on using Sim Lab to add physics parameters like materials and forces to test designs.
  86. [86]
    Traces and Graphs in Sim Lab
    Official update on 2024 enhancements to Sim Lab, including tracers and gravity settings.