Archived posting to the Leica Users Group, 2011/11/03
[Author Prev] [Author Next] [Thread Prev] [Thread Next] [Author Index] [Topic Index] [Home] [Search]Time to beat a dead horse! If anyone is interested: It is all geometry, namely the area of a circle. For each f-stop, we have double the light. The f-stop is related to the size of the aperture, which is approximated as a circle. The amount of light coming is proportional to the circle?s area, which you may recall is pi times the radius squared, pi*r^2. We use the f# for the equivalent radius. Thus, starting with f1, and r = 1, the area is pi*r^2 = pi*1*1 = pi, as the relative amount of light. For an amount of light 2*pi (next f-stop, double the light), pi*r^2 = 2 pi. Divide both sides by pi, and you get r^2 =2. r = the square root of 2, or 1.414? f1.4 is the next stop. This is where the 1.4 factor George mentioned comes from; the square root of 2 is 1.414. Next f-stop, double the light again: pi*r^2 = 2*2 pi. r^2 = 4, f2 is the next stop. So, if you want fractional stops: 1/3 stop: Square root of 1.333 = 1.15456 1/2 stop: Square root of 1.5 = 1.22474 2/3 stop: Square root of 1.667 = 1.29112 So going back to Mark?s f1.4 example: 1/3 stop slower = 1.414 * 1.15456 = f1.633 or f1.6 1/2 stop slower = 1.414 * 1.22474 = f1.732 or f 1.7 2/3 stop slower = 1.414 * 1.29112 = f1.828 or f1.8 1 stop slower = 1.414 * 1.414 = f2.0 Matt On Nov 2, 2011, at 5:32 PM, Mark Rabiner wrote: > I looked up f 1.8 vs. 1.4 thinking it was between a half and a quarter of a > stop and they are saying its 2/3rds!?!?! Anybody know that that's true? > > Where is there a photo calculator that tells you these things?!?!? I always thought the basic math for 1 f stop revolved around a factor of 1.4. 1.4 x 1.4 = 1.96 1.8 / 1.4 = 1.29 so - yes - 2/3 would seem close enough for? what? I'm not sure. Regards, George Lottermoser george at imagist.com http://www.imagist.com http://www.imagist.com/blog http://www.linkedin.com/in/imagist