Magnification and field of view, Meade instruments corporation, Meade lx200 instruction manuals – Meade Instruments LX200 User Manual

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Telescopes · Binoculars · Microscopes

Meade LX200 Instruction Manuals

7" Maksutov-Cassegrain Telescope 8", 10", and 12" Schmidt-Cassegrain Telescopes

H. MAGNIFICATION AND FIELD OF VIEW

IMPORTANT NOTICE! Never
use a telescope or spotting
scope to look at the Sun!
Observing the Sun, even for
the shortest fraction of a

second, will cause irreversible damage
to your eye as well as physical damage
to the telescope or spotting scope itself.

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1. Magnifications

The magnification, or power, of the telescope depends on two
optional characteristics: the focal length of the main telescope and
the focal length of the eyepiece used during a particular observation.
For example, the focal length of the LX200 7" f/15 is fixed at
2670mm, teh focal length of the LX200 8" f/10 telescope is fixed at
2000mm; the focal length of the 10" f/10 telescope is fixed at
2500mm; and the focal length of the 12" f/10 telescope is fixed at 3048mm. To calculate the power in use
with a particular eyepiece, divide the focal length of the eyepiece into the focal length of the main
telescope. For example, using the SP 26mm eyepiece supplied with the 8" f/10, the power is calculated as
follows:

Power = 2000mm/26mm = 77X

The type of eyepiece (whether "MA" Modified Achromatic, "OR" Orthoscopic, "SP" Super Plössl, etc.) has
no bearing on magnifying power but does affect such optical characteristics as field of view, flatness of field
and color correction.
The maximum practical magnification is determined by the nature of the object being observed and, most
importantly, by the prevailing atmospheric conditions. Under very steady atmospheric "seeing," the 7"
LX200 may be used at powers up to about 450X on astronomical objects, the 8" LX200 may be used at
powers up to about 500X, the 10" LX200 up to about 600X and the 12" up to about 750X. Generally,
however, lower powers of perhaps 250X to 350X will be the maximum permissible, consistent with high
image resolution. When unsteady air conditions prevail (as witnessed by rapid "twinkling" of the stars),
extremely high-power eyepieces result in "empty magnification," where the object detail observed is
actually diminished by the excessive power.
When beginning observations on a particular object, start with a low power eyepiece; get the object well-
centered in the field of view and sharply focused. Then try the next step up in magnification. If the image
starts to become fuzzy as you work into higher magnifications, then back down to a lower power–the
atmospheric steadiness is not sufficient to support high powers at the time you are observing. Keep in mind
that a bright, clearly resolved but smaller image will show far more detail than a dimmer, poorly resolved
larger image.
Because of certain characteristics of the human eye (in particular, eye pupil diameter) and because of
optical considerations inherent in the design of a telescope, there exists minimum practical power levels
also. Generally speaking, the lowest usable power is approximately 4X per inch of telescope aperture, or
about 28X in the case of the 7" telescope, 32X in the case of the 8" telescope, about 40X in the case of the
10" telescope and about 48X in the case of the 12" telescope. During the daytime, when human eye pupil

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