| Necessary Materials:
- 1 blank sheet of paper (any size)
- 1 compass (or just a glas which you can use to draw a circle)
- 1 pencil
- 1 thick pen (favorite color)
Steps:
First part: Use a pencil and draw thin lines
Draw a circle in the middle of your paper with ~ 12 to 18 cm diameter.
Draw a vertical line through the middle of the Circle,
Draw a horizontal line through the arc to get 4 pieces.
Draw 2 more lines till you have 16 pieces with the same size (i.e. 8 lines)
Label the intersections of lines and the circle from 1 to 16.
Second Part: Use a pen of your favorite color
Let x = 0.
Draw a line from the middle point to point 1 + x.
Draw a line from point 1 + x to point 2+ x.
Draw a line from point 2 + x to the middle.
If x is smaller than 13, add 2 to x and repeat the last three steps.
If x is bigger than 13, draw a line from the mid point to a any corner of your sheet.
Unfortunately Manuel was a very strict HGP so when he got in next-to-last line he repeated the last three steps and stopped. Maybe I should be more precise next time ;)
Algorithm for Computers 2 — 9.11.18
| Result
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Algorithm
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The same random points are used to generate rectangles and lines, and are rotated afterwards. One rectangle differs in color.
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| Result
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Algorithm
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Another outcome of the algorithm above..
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Algorithm for Humans 2 — 9.11.18
| Result
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Algorithm
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The same random points are used to generate rectangles and lines, and are rotated afterwards. One rectangle differs in color.
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Algorithm for Computers 3 — 16.11.18
| Result
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Algorithm
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The "first step" of the algorithm above drawn by our HP Plotter High Resolution PDF
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Algorithm for Humans 3 — 16.11.18
| Result
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Algorithm
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Lines on circle points are animated with a noise in x & y direction using mouse as input. At a certain point, the lines of the last figure are connected to the mouse. sin_cosin_mouse.pde
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Algorithm for Computers 4
| Result
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Algorithm
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A modified version of our Balloons, using Spheres and the Toonshader to get ascending eyes which follow the mouse cursor - not the most precious code, ;) Also tryed to get the eyes looking at ones face with openCV, but this didn`t perform well.[ Problem here is, that the Wiki doesn`t allow to upload shader files.
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Algorithm for Humans 4
| Result
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Algorithm
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This paintig was excuted by my friend in the holiday break. Therefore it was possible to choose some more uncommon materials and tools.
(Given) Materials:
- 8 acrylic colors
- a spinning top
- blank sheet of paper
- 4 medical syringes
- one solid base for spinning
- one stopwatch (with 0.00 seconds precision) (+ one person who stops the time for you)
- any webbrowser
Der Kreisel des Rechts („Spinning Top Of Justice“)
• Take 4 of the 8 given acrylic colors.
• Give them a ranking in your personal favor from 1 (least liked) to 4 (most liked)
• Mix the colors with water and fill the syringes with them by multiplying the number you gave them multiplied by 0.2 ml (e.g.: most liked color => 0.8ml)
• Execution: Read the following steps in advance:
◦ Repeat the following substeps for all 4 colors:
◦ Start spinning the circle and start the stopwatch
◦ While the circle is spinning, spray the color on top of it
◦ When the circle stops spinning, stop the stopwatch and note the time
• Multiply all measured times by 100 (to get rid off the decimals)
• Open the website https://dejure.org/ and search for the results of the last step
• Take the word that describes the topic off the paragraph in the best way
• Write the number off the paragraph and the word in the middle off the „circles“ that you produced with your spinning top.
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