Once 3D printed, students can compete to see whose spinning top can spin for the longest before analysing the results and making improvements on the design.Įxplore historical and architectural concepts of the Great Wall of China. You may wish to consider using demographic or survey information from your school to create 3D bar charts that show information that is specific to your school.Ĭombine toy design with concepts of forces and motion by guiding students in creating spinning tops. Whether its population, life expectancy or any other demographic, 3D bar charts make presenting information much more interesting and readable than basic 2D graphs. By designing and 3D printing wrenches and other tools, you can teach students the exact same concept and process – preparing them for the workplace of the future. Over the past few years, NASA have been exploring the use of 3D printers in space - to create functional tools that could potentially be created 'on-demand' by astronauts. What better way to learn about Egyptian Hieroglyphics and monuments than getting students to design their own obelisks! Using a hieroglyphic alphabet, they can go on to personalise their obelisk model with their own name.
In this example, students learn about mathematical linear sequences to determine how many pebbles are required to achieve the right sized pen case for a Bic Cristal biro cartridge to slot into the centre. With the use of an iterative process, students can analyse and evaluate their creations to improve on their designs.Ĭreate pen cases by using intersecting shapes such as pebbles drawn in Tinkercad. Teach students about sound waves, frequency and amplitude before challenging them to design a whistle. You may wish to create simple braille blocks or take it a step further and create braille signage for different areas of your school. 3D printing opens up a world of opportunity to create bespoke, on-demand braille models.
Rotate your viewing angle by clicking on the left side cube and moving it around.Teach students about forces, motion and Newton's Third Law whilst they battle it out in a balloon powered dragster competition! In this type of lesson, students can use design-thinking skills to determine the optimal size, shape and weight of the car and wheels to enable it to travel the furthest in a straight line.Įxplore the written of language of braille, whilst teaching students 3D modelling concepts.Edit your shapes and objects by selecting on the transformative modifiers located around the object.Drag and drop shapes and objects from your tool bar onto your grid.Begin either by Creating a New Design or visiting the Gallery to browse other designs.(please keep in mind that Tinkercad data is not Canadian housed so teachers may choose to sign up for themselves but would need to confirm permissions with their schools/district before asking students to sign up. Objects designed in Tinkercad can also be shared with other peers, and exported to be printed on a 3D printer!
Tinker cad free#
The application is also free to use and browser-based, allowing any computer to run the application without downloads. Catered to the beginner designer, Tinkercad makes the design process user friendly by employing drag & drop mechanisms and snapping grids. The beauty of Tinkercad over other 3D design tools lies in its accessibility.
Tinker cad software#
These integrations allow for models and designs to be viewed in AR and VR spaces.Ĭlick above to view an example of Tinkercad project in progressģD design software provides another medium for your students to utilize their applied design thinking skills. Tinkercad designs can also be taken further by integrating them with Merge Cube or CoSpaces. Its objective, according to founder Kai Backman, is to help “make 3-D design in general, and the design of physical items in particular, accessible to hundreds of millions of people.” By combining creative thinking and collaboration with computer aided design, Tinkercad introduces students to such pursuits as architecture, engineering, and even animation. Tinkercad was launched in 2011 and is currently owned by American software giant, Autodesk. With a variety of target audiences, including students, parents, and teachers, as well as hobbyists and general enthusiasts, Tinkercad provides users with web-based access from any on-line device, and their designs can be published and shared thanks to a Creative Commons license. According to its website, “Tinkercad is a free online collection of software tools” for what is known as 3D CAD (three-dimensional computer aided design) as well as coding, circuitry, and 3D printing.