Archived posting to the Leica Users Group, 2005/08/30
[Author Prev] [Author Next] [Thread Prev] [Thread Next] [Author Index] [Topic Index] [Home] [Search]At 07:25 PM 8/30/05 +0200, Philippe Orlent wrote: >How do you come to a CoC of 1/1000, thus 0,001? > >My very handy hyperfocal chart takes 0,03, thus 1/33, as CoC, making a >difference per type of camera >(see http://www.vividlight.com/articles/3513b.htm and >http://www.vividlight.com/pdf/hyperfocal.PDF) > >What determines these numbers? Let's get back to basics here. The Gevaert Manual of Photography (5th Rev Ed, 1962) carefully reminds us on p. 31 that "the conception of depth of field is purely relative and depends on the criterion of sharpness considered necessary for any particular application". That means, DOF varies substantially depending on the actual sharpness necessary for the job at hand. This depends in large measure also on the quality of the film used. The "circle of confusion" is a mathematical statement of the resolution required. A rather grainy film will permit a low circle of confusion; that is, if the film grain comes to, say, 1mm, in diameter, than the circle of confusion required will be 1mm (roughly 0.04" or, in franctions, 4/100") That would be a really coarse-grain film. More common are grain sizes in the area of 0.1mm, or 1/250", which would be that of, say, a relatively high-speed older film such as Royal-X or the like. In today's world, finer-grained films with higher speeds are readily available, so that it is probably the case (I have NOT looked any of this up, but I am relatively certain of the data presented), a rough grid could be developed as follows: slow films (say, 100 Delta) 1/1000" or 0.025mm medium-speed films (say, PanF) 1/750"or 0.034mm fast films (400 Delta &c) 1/500"or 0.05mm This is supposed to be the size of the average grain actually produced by these emulsions and, agian, I've not checked this out against Ilford's data but I am fairly certain that I am in the ball-park. The basic formula is: the hyperfocal distance in Imperial measures equals the focal length of the lens in inches squared divided by 12 times the aperture, this quantity then being multipled by the reciprocal of the circle of confusion in fractions of an inch. So, again, let us consider this 35mm f/3.5 lens when shot at f/3.5 under varying conditions of film resolution. With a slow film, we get the following: The lens focal length of 35mm in inches is 1.378". This quantity squared is 1.9. Divide this by 12 x 3.5, or 420, to achieve a factor of 0.0045. Multiply this by the reciprocal of the circle of confusion your film requires, and you get the following: 0.0045 times 1/1000 (low-speed film) = 4.5 feet 0.0045 times 1/750 (medium-speed film) = 3.4 feet 0.0045 times 1/500 (high-speed film) = 2.26 feet I believe that my maths are right but, then, maybe not. In any event, the results I get are as follows: 100 ASA film: set the lens to 4.5 feet and everything between 2 feet 3 inches and infinity will be focus to the limit of the film. 200 ASA film: set the lens to 3.4 feet and everything between 1 foot 8.4 inches and infinity will be in focus to the limit of the film. 400 ASA film: set the lens to 2.26 feet and everything between 1 foot 1?" will be in focus to the limit of the film. ,Note that the range of the focus increases as the circle of confusion is reduced. Trust me on this one: the press photographers who dominated American photo-journalism from the 1920's to the 1960's could run this formula in their heads while they were humping their Speed Graphics from one location to another. These guys really lived up to the Ben Hecht iconography and most smoked cigars and most carried hip flasks and all of that -- but they could crank out a hyperforcal distance in a heartbeat. It was the stuff of their lives, as they only got ONE chance to get a GOOD shot of, say, the local Mayor being hauled to the jailhouse or of a local pastor fleeing a whorehouse. So, yes, hyperfocal distances were a key part of their lives. (I had an encounter with one of the Speed Graphic guys from the dead and much-lamented Baltimore News-American around 1975 at nine in the AM: he was already drunk but explained hyperfocal distance to me so clearly that the concept has lived with me to these days.) Bear in mind that the circle of confusion varies from with the type of film used. That is why those Depth-of-Field scales printed on the lenses are most suspect, unless you know just what circle of confusion was used in the calculations to produce these ranges. In some cases, such as the 4.5/21 Carl Zeiss Biogon, it really doesn't matter due to the extreme shortness of the lens coupled with the slow basic speed of the lens, but it does make a lot of difference with, say, a modern 1.4/35 Summilux-M whether you are using your reserve stock of PanF or 3200 Delta. Marc msmall@aya.yale.edu Cha robh b?s fir gun ghr?s fir! NEW FAX NUMBER: +540-343-8505