MDJAK wrote in post #2446130
Okay, ladies and gents, put your thinking caps on and educate me, the village idiot.
As the focal length of a lens increases, the field of view narrows.
Have I got that right?
If I do, what, if anything, can be done to eliminate that?
Hold the kudos, as I came up with this in my sleep and woke up to run down here and post it.
Would it be possible to have, say, a 300mm lens with the same field/angle of view as, say, a 24mm lens?
What field of view does the Hubble have? Does it see a swath as wide as a 16-35?
Have at it, peoples.
me
Assuming the lens is for use with a given camera, the short answer is NO!
Field of view, or more accurately angle of view, is a property of the focal length of the lens and the size of the sensor. The equation for angle of view is:
A = 2arctan(d/2f)
where:
A = angle of view;
arctan = "the angle whose tangent is";
d = the dimension of the sensor/film in the measuring plane ("d" is from "diameter of the image circle"); and
f = the focal length of the lens.
For a full-frame 35mm sensor (or 35mm film), the image is 36×24mm. This produces a diagonal of 43.27mm. This 43.27mm is the size of the image circle.
For your 300mm lens on an ff35 camera, the angles of view are:
36mm (horizontal) plane = 6.87° (most useful AoV)
24mm (vertical) plane = 4.58°
43.27mm (diagonal) plane = 8.25° (least useful but most cited AoV)
If you put the same lens on an EOS-1D MkIIn, which has a sensor size of 27.8×19.1mm, with a diagonal of 33.73mm, these angles of view become:
27.8mm (horizontal) plane = 5.31°
19.1mm (vertical) plane = 3.65°
33.73mm (diagonal) plane = 6.44°
Again, if you put the same lens on an EOS 30D with a 22.5×15mm sensor, with a diagonal of 27.04mm, the angles of view become:
22.5mm (horizontal) plane = 4.30°
15mm (vertical) plane = 2.86°
27.04mm (diagonal) plane = 5.16°
The smaller the sensor, the smaller the angles of view for a given lens. This is the basis of the so-called "crop factor," which is 1.2544 for a 1D (NOT the published 1.3) and 1.6 for a 30D.
I don't happen to know either the focal length or the sensor size for the Hubbel telescope. It is, however, not a "telescope" in the traditional meaning of the word, but rather one hell of a digital P&S camera.
