### Agenda: 12:00: Assignment Review <br> 12:30: Workshop: <a href='https://learn.adafruit.com/multi-tasking-the-arduino-part-1/overview'>multi-tasking with Arduino language</a><br> 1:15: Break. Download and install <a href='https://www.prusa3d.com/prusaslicer/'>Prusa Slicer Software</a>, and configure it for the MK3S model printer <br> 1:30: Demo RevoPoint Scanner <br> 1:45: <a href='../../lab/3d-printing/3d_intro.html' target="_self">Intro to 3D printing</a>, <a href="../../lab/3d-printing/STLembed.html" target="_self">Embedding 3D models onto a webpage</a> <br> 2:45: <a href='../../lab/3d-printing/ted.html' target="_self"> Advanced 3D printing capabilities at Harvard </a><br> ### Labs: Make sure you're comfortable with <a href='https://learn.adafruit.com/multi-tasking-the-arduino-part-1/overview'>multi-tasking with Arduino language</a>. Prepare and print a ~10 minute part (before attempting a longer print for your assignment). Scan something using the RevPoint scanner in the lab, or a <a href="http://opensourcephotogrammetry.blogspot.com/">photogrammetry</a> application. Some options: - <a href="https://github.com/alicevision/meshroom">Meshroom</a>. See <a href='https://tomkinsc.github.io/harvard-ps70/2020-02-27/'>Chris's results</a>. - <a href="https://www.autodesk.com/products/recap/overview">ReCap</a> (free for students), <a href="http://www.agisoft.ru/products/photoscan/standard/">PhotoScan</a>, <a href="http://ccwu.me/vsfm/">VisualSFM</a>, <a href="https://play.google.com/store/apps/details?id=com.smartmobilevision.scann3d&amp;hl=en_US">SCANN3D</a> - <a href='https://all3dp.com/2/5-best-3d-scanner-apps-for-your-smartphone/'>Other options</a> ### Assignment: 1. Design and print either (a) a component you need for your final project or (b) a small object that could not be (easily) made by subtractive methods. Upload your 3D model file (e.g. .f3z), STL file, and sliced gcode file to your documentation. (You can use <code> &lt;a download href='./path_to_file.stl'&gt;Download my STL file &lt;\a&gt;</code> to make downloadable links to your files). 2. Scan something using the RevoPoint scanner or a <a href="http://opensourcephotogrammetry.blogspot.com/">photogrammetry</a> application. 3. Update your website with more information about your final project, including a bill of materials, timeline, and project goals. <h3> Reading: </h3> <p> <ul> <li> <a href='https://learn.sparkfun.com/tutorials/capacitors/all'>Sparkfun's Intro to Capacitance </a></li> <li> <a href='http://fab.cba.mit.edu/classes/863.13/people/Jonathan_Grinham/index.html'>Jonathan Grinham's Capacitive Plants</li> <li><a href='http://fab.cba.mit.edu/classes/863.11/people/matthew.keeter/multitouch/index.html'>Matt Keeter's Capacitive Multitouch </a> </li> </ul> </p> <h3> Resources: </h3> <p> <a href='https://www.thingiverse.com/'>Thingiverse</a>, <a href='https://grabcad.com/library'>GrabCAD</a>, <a href='https://all3dp.com/1/free-stl-files-3d-printer-models-3d-print-files-stl-download/'>more</a>. <br> [r/functionalprint](https://www.reddit.com/r/functionalprint/) <br> <a href='https://www.youtube.com/watch?v=7JhjhgjchfM'> Print-in-place (hinges and other parts)</a><br> <a href='https://ult3d.com/3d-printing-assemblies-no-assembly-required/'> Ultimaker PIP </a><br> <a href='https://news.mit.edu/2016/first-3d-printed-robots-made-of-both-solids-and-liquids-0406'> MIT PIP Robot</a><br> <a href='https://n-e-r-v-o-u-s.com/projects/sets/kinematics-dress/'> Nervous Systems PIP Kinematic Dress </a> <br> </p>