Follow-up Clipart
http://openclipart.org
A media feed of Follow-up clipart.en-UShttp://openclipart.org/image/144px/svg_to_png/193993/Openclipart-Scissors-Logo-in-Green.png
http://openclipart.org
Follow-up Clipart144144Manga Girl - True SVG (remix)
http://openclipart.org/detail/191873/manga-girl---true-svg--by-j4p4n-191873
Sun, 16 Mar 2014 12:57:57 -0400j4p4nThis is a follow up to my previous communication, an attempt to show user martinaledermann how to make SVG files from the source, which I'm sure was hardwork. Uploading a BITMAP embedded into the file does NOT produce real clipart, you have to trace it at least in software such as Inkscape. If you have any questions, please ask. http://openclipart.org/detail/191873/manga-girl---true-svg--by-j4p4n-191873http://creativecommons.org/licenses/publicdomain/Label with string
http://openclipart.org/detail/162655/label-with-string-by-palomaironique
Mon, 03 Oct 2011 21:15:47 -0400palomaironiqueLabel with string - Etiquette avec cordelette - Etikett mit Schnur - Etichetta con spagohttp://openclipart.org/detail/162655/label-with-string-by-palomaironiquehttp://creativecommons.org/licenses/publicdomain/regular triangle discovery
http://openclipart.org/detail/148285/regular-triangle-discovery-by-10binary
Mon, 04 Jul 2011 21:23:38 -040010binaryI made a discovery about regular triangles today.
For a long time I've wondered, is it possible to create a regular triangle on a computer which
has all of it's points exactly on an integer position. I finally succeeded in doing it with inkscape.
I know almost nothing about the math behind angles. However, when creating lines with the path tool, inkscape displays the angle created by the current location relative to the first point of the line.
For this I used a square grid.
The ratio in pixels I found in the smallest triangle while one corner pointed straight up or down is.
width/height
82/71
How I did this was first use inkscape's polygon tool to automatically create a regular triangle.
Then I made a grid of squares with spacing of 1 pixel. Then I snapped one corner to a grid intersection. Then I tried to follow the triangle and see if it's sides ever crossed an intersection of the grid.
And I was so amazed that it did, and since inkscape lets me automatically snap to the grid, I quickly
made my own triangle path that looks like a really good regular triangle. I'm not sure if I can use this information for pixel art or not but it will be very useful for any vector editor with a square grid.
I'm not sure if this discovery is correct according to geometry,algebra,trigonometry, or whatever other math I know nothing of, but it is at least a good way to approximate a regular triangle on a grid of squares.
http://openclipart.org/detail/148285/regular-triangle-discovery-by-10binaryhttp://creativecommons.org/licenses/publicdomain/