top of page

Group

Public·29 members

Joseph Cruz
Joseph Cruz

Tinkercad 2019 64 Bit: A Free Cloud-Based Software for 3D Modeling, Engineering, and Programming


Tinkercad 2019 64 Bit Free Download: A Beginner's Guide to 3D Design, Electronics, and Coding




If you are looking for a free and easy way to create 3D models, design electronic circuits, or write code for your projects, you should check out Tinkercad, a web app that lets you do all that and more. In this article, we will show you what Tinkercad is, why you should use it, how to download and install it on your Windows computer, how to use it for different purposes, how to learn and teach with it, and what are some alternatives and competitors to it.




Tinkercad 2019 64 Bit Free Download



What is Tinkercad and why should you use it?




Tinkercad is a free web app for 3D design, electronics, and coding




Tinkercad is a web app that allows you to create 3D digital designs, electronics projects, and code programs using your browser. You don't need any previous experience or software installation to use Tinkercad. You just need a computer, a browser, and an internet connection.


Tinkercad is developed by Autodesk, a leading company in 3D design, engineering, and entertainment software. Autodesk also offers other products such as AutoCAD, Fusion 360, Maya, and SketchBook. Tinkercad is part of the Autodesk Education Community, which provides free access to software, learning resources, and competitions for students and educators.


Tinkercad has many features and benefits for beginners and educators




Tinkercad is designed to be simple, intuitive, and fun for anyone who wants to learn 3D design, electronics, and coding. Some of the features and benefits of Tinkercad are:


  • It is free to use for personal and educational purposes.



  • It is cloud-based, so you can access your projects from anywhere and share them with others.



  • It has a user-friendly interface that lets you drag and drop shapes, resize and rotate them, group and ungroup them, and combine and subtract them.



  • It has a large library of shapes, colors, materials, and textures that you can use to customize your designs.



  • It supports importing and exporting STL files, which are compatible with most 3D printers and online services.



  • It has a circuits mode that lets you design and simulate electronic circuits using components such as resistors, LEDs, switches, sensors, motors, and Arduino boards.



  • It has a codeblocks mode that lets you write programs that control your 3D models or circuits using block-based code or JavaScript.



  • It has a lot of tutorials, videos, projects, and lessons that teach you the basics and advanced concepts of 3D design, electronics, and coding.



  • It has a class management system that lets you create or join a class, invite or approve students, assign projects, and track progress.



  • It has a community gallery that lets you explore and share your designs with other users around the world.



Tinkercad is compatible with Windows 10 or 11, Google Chrome, and most computers and laptops




Tinkercad is a web app that runs on your browser. You don't need to download or install anything to use it. However, you do need to meet some minimum system requirements to ensure a smooth and optimal experience. These are:


  • A Windows 10 or 11 operating system with a 64-bit processor. Tinkercad does not support Windows 7 or 8.



  • A Google Chrome browser with the latest version. Tinkercad does not support other browsers such as Firefox, Edge, Safari, or Internet Explorer.



  • A computer or laptop with at least 4 GB of RAM and a graphics card that supports WebGL. Tinkercad may not work well on older or low-end devices.



How to download and install Tinkercad 2019 64 bit for free?




You don't need to download or install anything to use Tinkercad




As mentioned before, Tinkercad is a web app that runs on your browser. You don't need to download or install anything to use it. All you need is a computer, a browser, and an internet connection. This means that you can use Tinkercad on any device that meets the system requirements, such as desktops, laptops, tablets, or smartphones.


You just need to create a free account and log in to the web app




To use Tinkercad, you need to create a free account on the website. You can do this by following these steps:


  • Go to Tinkercad.com on your browser.



  • Click on the "Join now" button on the top right corner of the page.



  • Select your account type: personal, educator, or student.



  • Enter your email address and password, or sign in with your Google, Microsoft, or Apple account.



  • Verify your email address by clicking on the link sent to your inbox.



  • Log in to your account and start using Tinkercad.



You can also use Tinkercad on your mobile devices with the app




If you want to use Tinkercad on your mobile devices, you can download the app from the App Store or Google Play Store. The app lets you access your projects, create new ones, and view them in AR (augmented reality). However, the app does not have all the features and functionalities of the web app, such as circuits, codeblocks, and class management. Therefore, we recommend using the web app for the best experience.


How to use Tinkercad for 3D design, electronics, and coding?




Tinkercad has three main modes: 3D design, circuits, and codeblocks




Tinkercad has three main modes that you can switch between on the top left corner of the page. These are:


  • 3D design: This is the default mode where you can create 3D models from basic shapes. You can drag and drop shapes from the right panel, resize and rotate them with the handles, group and ungroup them with the buttons, and combine and subtract them with the tools. You can also change the color, material, and texture of your shapes from the top panel. You can zoom in and out with the mouse wheel, pan with the right mouse button, and orbit with the left mouse button.



  • Circuits: This is the mode where you can design and simulate electronic circuits using components such as resistors, LEDs, switches, sensors, motors, and Arduino boards. You can drag and drop components from the right panel, connect them with wires by clicking on the terminals, change their properties from the inspector panel, and run the simulation with the play button. You can also use multimeters, oscilloscopes, and logic analyzers to measure your circuit's behavior.



  • Codeblocks: This is the mode where you can write programs that control your 3D models or circuits using block-based code or JavaScript. You can drag and drop code blocks from the left panel, snap them together in the workspace, edit their parameters from the inspector panel, and run your program with the play button. You can also switch to JavaScript mode to write code in text format.



You can create 3D models from basic shapes, import and export STL files, and print your designs




One of the main uses of Tinkercad is to create 3D models from basic shapes. You can use Tinkercad to design anything you can imagine, such as toys, jewelry, household items, artwork, and more. You can also import and export STL files, which are standard formats for 3D printing and online services.


To create a 3D model in Tinkercad, you need to follow these steps:


  • Switch to 3D design mode if you are not already in it.



  • Click on the "Create new design" button on the top right corner of the page.



  • Give your design a name and click on "Create".



  • Drag and drop shapes from the right panel to the workplane.



  • Resize and rotate them with the handles, group and ungroup them with the buttons, and combine and subtract them with the tools.



  • Change the color, material, and texture of your shapes from the top panel.



  • Save your design by clicking on the "Save" button on the top right corner of the page.



  • Export your design as an STL file by clicking on the "Export" button on the top right corner of the page, selecting "STL", and choosing "Download".



  • Import an STL file by clicking on the "Import" button on the top right corner of the page, selecting "Choose a file", and browsing your computer for an STL file.



  • Print your design by clicking on the "Print" button on the top right corner of the page, selecting a printer or a service, and following their instructions.



You can design and simulate electronic circuits, connect them to Arduino boards, and program them with codeblocks




Another use of Tinkercad is to design and simulate electronic circuits using components such as resistors, LEDs, switches, sensors, motors, and Arduino boards. You can use Tinkercad to learn about electronics principles, test your ideas, and prototype your projects. You can also connect your circuits to Arduino boards, which are microcontrollers that can be programmed with codeblocks or JavaScript.


To design and simulate an electronic circuit in Tinkercad, you need to follow these steps:


  • Switch to circuits mode if you are not already in it.



  • Click on the "Create new circuit" button on the top right corner of the page.



  • Give your circuit a name and click on "Create".



  • Drag and drop components from the right panel to the breadboard or the workplane.



  • Connect them with wires by clicking on the terminals and dragging them to another terminal.



  • Change the properties of your components from the inspector panel, such as resistance, voltage, current, etc.



  • Run the simulation by clicking on the "Start simulation" button on the bottom right corner of the page.



  • Use multimeters, oscilloscopes, and logic analyzers to measure your circuit's behavior by dragging them from the right panel and connecting them to your circuit.



  • Add an Arduino board to your circuit by dragging it from the right panel and connecting it to your circuit with wires.



  • Program your Arduino board with codeblocks or JavaScript by clicking on the "Code" button on the top right corner of the page, selecting a mode, and writing your code in the editor.



  • Save your circuit by clicking on the "Save" button on the top right corner of the page.



You can write programs that control your 3D models using block-based code or JavaScript




The third use of Tinkercad is to write programs that control your 3D models using block-based code or JavaScript. You can use Tinkercad to learn about coding concepts, create interactive animations, and make your designs come to life. You can also use codeblocks or JavaScript to program your Arduino boards in circuits mode.


To write a program that controls your 3D model in Tinkercad, you need to follow these steps:


  • Switch to codeblocks mode if you are not already in it.



  • Click on the "Create new codeblock" button on the top right corner of the page.



  • Give your codeblock a name and click on "Create".



  • Drag and drop code blocks from the left panel to the workspace. You can use blocks for variables, operators, logic, loops, events, functions, shapes, transforms, colors, etc.



  • Edit the parameters of your code blocks from the inspector panel, such as names, values, conditions, etc.



  • Run your program by clicking on the "Start simulation" button on the bottom right corner of the page. You will see your 3D model change according to your code.



  • Switch to JavaScript mode by clicking on the "JavaScript" button on the top right corner of the page. You will see your code in text format. You can edit your code in the editor and run it with the same button.



  • Save your codeblock by clicking on the "Save" button on the top right corner of the page.



How to learn and teach with Tinkercad?




Tinkercad has a lot of resources to help you learn and teach with the app




Tinkercad is not only a tool for creating 3D designs, electronics projects, and code programs. It is also a platform for learning and teaching with these topics. Tinkercad has a lot of resources that you can access from the website or the app. These include:


  • Tutorials: These are step-by-step guides that show you how to use Tinkercad for different purposes. You can find tutorials for 3D design, circuits, codeblocks, Arduino, 3D printing, etc. You can access tutorials from here.



  • Videos: These are short videos that explain various concepts and features of Tinkercad. You can find videos for 3D design basics, circuits basics, codeblocks basics, etc. You can access videos from here.



  • Projects: These are ready-made designs that you can open and modify in Tinkercad. You can find projects for different categories such as art, games, home, jewelry, robots, etc. You can access projects from here.



  • Lessons: These are structured activities that teach you various skills and concepts using Tinkercad. You can find lessons for different levels such as beginner, intermediate, and advanced. You can access lessons from here.



You can join or create a class and manage your students' progress




If you are an educator who wants to use Tinkercad in your classroom, you can join or create a class and manage your students' progress. You can do this by following these steps:


  • Go to Tinkercad.com/teach on your browser.



  • Log in to your account or sign up for a free educator account.



  • Click on the "Create a new class" button on the top right corner of the page.



  • Give your class a name and a description, and click on "Create".



  • Invite your students to join your class by sending them a class code or a link.



  • Assign projects or lessons to your students by clicking on the "Assignments" tab and selecting the ones you want.



  • Track your students' progress by clicking on the "Students" tab and viewing their work.



  • Provide feedback to your students by clicking on their work and leaving comments.



You can explore and share your designs with the Tinkercad community




Tinkercad is not only a tool for creating 3D designs, electronics projects, and code programs. It is also a community of users who share their work, ideas, and feedback. You can explore and share your designs with the Tinkercad community by following these steps:


  • Go to Tinkercad.com/explore on your browser.



  • Log in to your account or sign up for a free personal account.



  • Browse the gallery of designs by other users. You can filter them by category, popularity, date, etc.



  • View the details of any design by clicking on it. You can see the name, description, creator, likes, comments, etc.



  • Like or comment on any design by clicking on the buttons below it. You can also reply to other comments.



  • Copy or remix any design by clicking on the "Copy & Tinker" button below it. You can modify it in Tinkercad and save it as your own.



  • Share your own designs by clicking on the "Share" button on the top right corner of the page. You can choose to make them public or private, and add a name, description, tags, etc.



What are some alternatives and competitors to Tinkercad?




Tinkercad is not the only tool for 3D design, electronics, and coding




Tinkercad is a great tool for beginners who want to learn 3D design, electronics, and coding. However, it is not the only tool that offers these features. There are many alternatives and competitors to Tinkercad that you may want to try or compare. Some of them are:


Some alternatives and competitors include Blender, FreeCAD, SketchUp, LibreCAD, Autodesk AutoCAD, Onshape, Ultimaker Cura, OpenSCAD, SOLIDWORKS, etc.




These are some of the most popular and widely used tools for 3D design, electronics, and coding. They have different features, advantages, disadvantages, prices, and system requirements. Here is a brief overview of each one:



Tool


Description


Features


Advantages


Disadvantages


Price


System Requirements



Blender


A free and open source software for 3D modeling, animation, rendering, sculpting, simulation, video editing, and more.


- Supports various types of geometry such as polygons, NURBS, metaballs, etc.- Has a powerful node-based material and compositing system.- Supports various file formats and add-ons.


- It is free and open source.- It is versatile and powerful.- It has a large and active community.


- It has a steep learning curve.- It has a complex and cluttered interface.- It may not be compatible with some 3D printers or online services.


Free


- A Windows, Mac, or Linux operating system.- A 64-bit dual core processor.- A graphics card with OpenGL 3.3 support.- At least 4 GB of RAM.



FreeCAD


A free and open source software for parametric 3D modeling, engineering, and architecture.


- Supports creating and modifying 3D models based on parameters and constraints.- Has a modular architecture that allows adding or removing workbenches for different tasks.- Has a sketcher, a part design, a draft, an architecture, a mesh, a FEM, a robot, and more workbenches.- Supports importing and exporting various file formats such as STEP, IGES, STL, SVG, DXF, etc.


- It is free and open source.- It is flexible and customizable.- It is suitable for engineering and architecture applications.


- It has a steep learning curve.- It has some bugs and stability issues.- It may not have all the features of commercial software.


Free


- A Windows, Mac, or Linux operating system.- A 64-bit processor.- A graphics card with OpenGL 2.0 support.- At least 2 GB of RAM.



SketchUp


A software for 3D modeling, rendering, animation, and visualization.


- Supports creating and editing 3D models using push-pull, follow-me, offset, and other tools.- Has a large library of materials, textures, components, and styles that you can use to customize your models.- Has a layout tool that lets you create 2D drawings from your models.- Has an extension warehouse that lets you add more features and functionalities to the software.


- It is easy to use and learn.- It is wi


About

Welcome to the group! You can connect with other members, ge...

Members

Subscribe Form

Thanks for submitting!

©2021 by Hand 'N Hand Coaching. Proudly created by Inked Pixels.

bottom of page