Equal Clipart
https://openclipart.org
A media feed of Equal clipart.en-UShttps://openclipart.org/image/144px/svg_to_png/193993/Openclipart-Scissors-Logo-in-Green.png
https://openclipart.org
Equal Clipart144144Gender Equality Symbol
https://openclipart.org/detail/254893/gender-equality-symbol
Sat, 09 Jul 2016 08:21:58 -0400workerA generic symbol for gender equalityhttps://openclipart.org/detail/254893/gender-equality-symbolhttp://creativecommons.org/licenses/publicdomain/2+3=23
https://openclipart.org/detail/251759/2+3=23
Sat, 11 Jun 2016 16:02:11 -0400photofree.gaIncorrect math. While this might be true when using strings in certain programming languages (although you would need one more equal sign), do not learn from this for your next exam.https://openclipart.org/detail/251759/2+3=23http://creativecommons.org/licenses/publicdomain/Karl Friedrich Gauss
https://openclipart.org/detail/250953/karl-friedrich-gauss
Tue, 07 Jun 2016 00:06:04 -0400AdamStanislavLithograph from 1828, by Siegfried Detlev Bendixen, showing a portrait of the German mathematician Carl Friedrich Gauss at the age of 50. Source: http://commons.wikimedia.org/wiki/File:Bendixen_-_Carl_Friedrich_Gauß,_1828.jpg.
From en.wikipedia.org/wiki/Carl_Friedrich_Gauss: ?Johann Carl Friedrich Gauss (/?a?s/; German: Gauß, pronounced [?a?s]; Latin: Carolus Fridericus Gauss) (30 April 1777 ? 23 February 1855) was a German mathematician who contributed significantly to many fields, including number theory, algebra, statistics, analysis, differential geometry, geodesy, geophysics, mechanics, electrostatics, astronomy, matrix theory, and optics.
Sometimes referred to as the Princeps mathematicorum (Latin, "the foremost of mathematicians") and "greatest mathematician since antiquity", Gauss had an exceptional influence in many fields of mathematics and science and is ranked as one of history's most influential mathematicians.?
Yes, he was all that and a lot more. But my favorite story is from his childhood. It is said one day his math teacher needed to do some work instead of teaching, so at the beginning of the lesson he told the pupils to add up the numbers from 1 to 100. They starting working and the teacher started doing whatever it was he needed to do. But just a few minutes later, young Karl raised his hand and said the numbers added up to 5050. The teacher just shook his head and told Karl not to fib.
Closer to an hour later other pupils started raising their hands and they also said the result was 5050. The teacher then asked Karl how he could calculate the result so quickly. Karl said that 1+100=101, 2+99=101,3+98=101,...,50+51=101. There were fifty such pairs that added up to 101 each. Therefore, the sum of the numbers from 1 to 100 equals 50 times 101, and that is 5050. Duh!
Whether the story is true or not, that is the basis of Gauss? algorithm for adding any sequence of numbers starting anywhere and ending anywhere else. And it shows Gauss would make an amazing computer programmer because this type of problem solving is the heart of computer programming.https://openclipart.org/detail/250953/karl-friedrich-gausshttp://creativecommons.org/licenses/publicdomain/tones 5
https://openclipart.org/detail/247534/tones-5
Tue, 26 Apr 2016 11:34:14 -0400Lazur URHA theoretical image on fading tones, made up by equal sized flat filled shapes. With random "dithering".
At least that was the plan. But couldn't figure out how to construct a halftone with an orderd dithering yet.
So this is a bit moving forward.
Two sets of ten tones, made by separate gradients.
Can be used to draw bases for sources for the image filter primitive for future hatching filter, using ten shades.
Does it sound complicated?https://openclipart.org/detail/247534/tones-5http://creativecommons.org/licenses/publicdomain/tones 4
https://openclipart.org/detail/247528/tones-4
Tue, 26 Apr 2016 00:45:32 -0400Lazur URHA theoretical image on fading tones, made up by equal sized flat filled shapes. With random "dithering". https://openclipart.org/detail/247528/tones-4http://creativecommons.org/licenses/publicdomain/tones 3
https://openclipart.org/detail/247527/tones-3
Tue, 26 Apr 2016 00:41:41 -0400Lazur URHA theoretical image on fading tones, made up by equal wide strokes parallel to the transition.https://openclipart.org/detail/247527/tones-3http://creativecommons.org/licenses/publicdomain/tones 2
https://openclipart.org/detail/247526/tones-2
Mon, 25 Apr 2016 22:24:20 -0400Lazur URHA theoretical image on fading tones, made up by equal wide strokes parallel to the transition.https://openclipart.org/detail/247526/tones-2http://creativecommons.org/licenses/publicdomain/tones
https://openclipart.org/detail/247480/tones
Mon, 25 Apr 2016 01:15:50 -0400Lazur URHA theoretical image on fading tones, made up by equal sized flat filled shapes. https://openclipart.org/detail/247480/toneshttp://creativecommons.org/licenses/publicdomain/Mischen von Alkohol und Wasser - Bild zum Bemalen
https://openclipart.org/detail/232965/mischen-von-alkohol-und-wasser-bild-zum-bemalen
Thu, 26 Nov 2015 14:06:24 -0400B.LachnerScience illustration to set up understanding of a mixture of equal volumes of water and ethanol alcohol (original in German)https://openclipart.org/detail/232965/mischen-von-alkohol-und-wasser-bild-zum-bemalenhttp://creativecommons.org/licenses/publicdomain/circular grid 3 II
https://openclipart.org/detail/230835/circular-grid-3-ii
Fri, 23 Oct 2015 23:54:55 -0400Lazur URHA circular grid. Circumference is divided from 1 to 36. Each area is equal sized. Outlines only. https://openclipart.org/detail/230835/circular-grid-3-iihttp://creativecommons.org/licenses/publicdomain/circular grid 3
https://openclipart.org/detail/230834/circular-grid-3
Fri, 23 Oct 2015 23:30:14 -0400Lazur URHA circular grid. Circumference is divided from 1 to 36. Each area is equal sized. Outlines only. https://openclipart.org/detail/230834/circular-grid-3http://creativecommons.org/licenses/publicdomain/Equal Economic Opportunity
https://openclipart.org/detail/229257/equal-economic-opportunity
Thu, 08 Oct 2015 04:28:47 -0400zerozipEconomic Equality. Equal Economic Opportunity. Equal Employment Opportunity. Equality is the foundation of a fair and honest nation.https://openclipart.org/detail/229257/equal-economic-opportunityhttp://creativecommons.org/licenses/publicdomain/distorted hyperbolic tiling
https://openclipart.org/detail/229145/distorted-hyperbolic-tiling
Wed, 07 Oct 2015 15:39:11 -0400Lazur URHSo that now all of the rectangles have an equal area. "With gaps", no overlapping. https://openclipart.org/detail/229145/distorted-hyperbolic-tilinghttp://creativecommons.org/licenses/publicdomain/spectrum steps
https://openclipart.org/detail/228845/spectrum-steps
Sat, 03 Oct 2015 13:42:09 -0400Lazur URHBefore drawing 36 concentric spirals, need to draw 36 distinguishable gradients. How would they look consistent? Let's break the hue field down to equal sections. Right, let's see how that will work. How can "truecolor"'s 256 steps be broken down to 1-36 steps. https://openclipart.org/detail/228845/spectrum-stepshttp://creativecommons.org/licenses/publicdomain/boys n ball
https://openclipart.org/detail/227299/boys-n-ball
Sat, 12 Sep 2015 21:34:36 -0400The Martina lineup of five young boys, one is holding a soccer ball, they are smiling; this was initially an illustration for a math-puzzle so two boys are of equal hight and all others have their own height respectivelyhttps://openclipart.org/detail/227299/boys-n-ballhttp://creativecommons.org/licenses/publicdomain/Roulette curve 29
https://openclipart.org/detail/224667/roulette-curve-29
Sat, 08 Aug 2015 06:38:01 -0400FirkinA spirograph-type curve such as would be obtained by rolling around the outside of a superellipse (equal major and minor axes of 2, exponent =4) a circle with radius 0.268 for three revolutions, the drawing point being 6 from the circle's centre.https://openclipart.org/detail/224667/roulette-curve-29http://creativecommons.org/licenses/publicdomain/Roulette curve 28
https://openclipart.org/detail/224666/roulette-curve-28
Sat, 08 Aug 2015 06:35:45 -0400FirkinA spirograph-type curve such as would be obtained by rolling around the inside of a superellipse (equal major and minor axes of 2, exponent =4) a circle with radius 0.268 for three revolutions, the drawing point being 1.689 from the circle's centrehttps://openclipart.org/detail/224666/roulette-curve-28http://creativecommons.org/licenses/publicdomain/Roulette curve 27
https://openclipart.org/detail/224665/roulette-curve-27
Sat, 08 Aug 2015 06:32:38 -0400FirkinA spirograph-type curve such as would be obtained by rolling around the outside of a superellipse (equal major and minor axes of 2, exponent =4) a circle with radius 0.268 for three revolutions, the drawing point being 2.278 from the circle's centrehttps://openclipart.org/detail/224665/roulette-curve-27http://creativecommons.org/licenses/publicdomain/Roulette curve 26
https://openclipart.org/detail/224664/roulette-curve-26
Sat, 08 Aug 2015 06:25:10 -0400FirkinA spirograph-type curve such as would be obtained by rolling around the inside of a superellipse (equal major and minor axes of 2, exponent =4) a circle with radius 0.268 for three revolutions, the drawing point being 0.526 from the circle's centre.https://openclipart.org/detail/224664/roulette-curve-26http://creativecommons.org/licenses/publicdomain/Roulette curve 25
https://openclipart.org/detail/224663/roulette-curve-25
Sat, 08 Aug 2015 06:22:49 -0400FirkinA spirograph-type curve such as would be obtained by rolling around the outside of a superellipse (equal major and minor axes of 2, exponent =4) a circle with radius 0.268 for three revolutions, the drawing point being 0.804 from the circle's centre.https://openclipart.org/detail/224663/roulette-curve-25http://creativecommons.org/licenses/publicdomain/