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I would suggest the Machinery's Handbook. It comes in various editions since 1914, with the current edition being the 30th, but you will need to locate an edition prior to about 1976 to find the thread specifications you are looking for. I think the 1976 edition was the 20th edition, so that edition or before, but after about 1930 should provide the information you are looking. Some of the sizes (nominal diameters and TPI) will probably be uncommon in use, so the other dimensions (major/pitch/minor diameters, lands, root forms, thread angles, tolerances, etc.) may not be in table form. If that is the case you will have to use the formula provided.
It has been a long time since I worked with any of the thread types you listed, but I think they are all part of the 'National' thread type, or modified variants of them. The 'N' indicating 'National', the 'F' indicating 'Fine' pitch, and the 'S' indicating 'Special'??
Possibly this will help:
https://www.govinfo.gov/content/pkg...VPUB-C13-e37fe604c6638ab929cfb4fe8af50ac2.pdf
Any thread with the N as part of the designation will have a standard specific geometry and specification for a given pitch, modified by the class of fit. For threads of 1 inch and over that used either 8, 12, or 16 TPI (Threads Per Inch) and were not designated as either a Course, Fine, Extra Fine, or Special pitch, an N only was used in the designation. There were 3 classes of 'free' fit threads (-1,-2,-3) with class 1 having the greatest distance between internal and external thread surfaces and class 3 having the least distance. The class 1 might be used for assemblies where it was expected that dirt or corrosion would be a factor, and class 3 would usually be used where it mattered as to the centering of the part to a mating threaded part. Class 2 would be used where normal effect was specified. So a 2 7/16-16 N-3 would have the standard 16 TPI thread form modified by the class of fit which in this case is class 3. Whatever this bolt was used for it required a large load carrying ability and a fairly tight tolerance in locating one part to another.
By Jove, I do believe he's got it.
The only aspect/dimension you did not cover was the pitch diameter. If you look farther down in the class of fit threads per inch column, below major/minor diameter you see maximum, minimum, and tolerance numbers for the pitch diameter. For a class -3 you will see that the tolerance is .0036". This is an important number due to the variation of error that can arise when combining thread angle (i.e. 60 deg.), major diameter, and minor diameter. If the thread angle is perfect, the major diameter and minor diameter are exactly in the middle of their tolerance, and the flats are exactly in the middle of their tolerance, then the pitch diameter will be exactly in middle of its tolerance, and the thread form will be perfect. If, however, any of these are off in the right number combination then the pitch diameter could be out of tolerance and you would not know it. The measurement equipment used to verify the pitch diameter is usually either a pitch micrometer (aka thread micrometer), or the 3-wire method. Another method is by the use of an optical comparator (aka ~shadow graph).