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Comparison Celestron Outland X 10x42 vs Celestron Nature DX 10x42

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Celestron Outland X 10x42
Celestron Nature DX 10x42
Celestron Outland X 10x42Celestron Nature DX 10x42
from 5 401 ₴
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from 13 910 ₴
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Product typebinocularsbinoculars
Magnification10 x10 x
Optical characteristics
Field of view 1 km away98 m129 m
Real angle of view5.6 °7.4 °
Min. focus distance4.5 m2 m
Twilight factor20.520.5
Relative brightness17.617.6
Phase correction
Diopter adjustment
Design
Lens diameter42 mm42 mm
Exit pupil diameter4.2 mm4.2 mm
Eye relief14 mm
Focuscentralcentral
PrismRoofRoof
Interpupillary adjustment
Nitrogen filled
General
Dustproof, water resistant
Case
Tripod adapter
Bodyrubber coated aluminium
Size146x126x53 mm135x126x52 mm
Weight618 g629 g
Color
Added to E-Catalogapril 2015april 2015

Field of view 1 km away

The diameter of the area visible through binoculars / monoculars from a distance of 1 km — in other words, the largest distance between two points at which they can be seen simultaneously from this distance. It is also called "linear field of view". Along with the angular field of view (see below), this parameter characterizes the space covered by the optics; at the same time, it describes the capabilities of a particular model more clearly than data on viewing angles. Models with magnification adjustment (see above) usually indicate the maximum field of view — at the lowest magnification and the widest angle of view. This information is often supplemented by data on the minimum value.

Real angle of view

The section of the panorama that can be viewed through the eyepieces of binoculars. The higher the actual angular field of view, the wider the visibility of the optics. Note that the angular field of view has an inverse relationship with magnification. That is, the higher the magnification, the narrower the visibility (the smaller the real angular field of view). The actual angular field of view is calculated as follows: you need to divide the angular field of view (in degrees °) by the magnification factor. In comparison, the human eye has an angular field of view of 60 arcseconds (“). In terms of degrees, you get 150 °. Good binoculars provide a real field of view somewhere within 10 arcseconds. But it does not always make sense to chase after large indicators of the real angular field of view. The fact is that when viewing a large section of the panorama, the edges of the image receive noticeable distortion.

Min. focus distance

The smallest distance to the observed object, at which it will be clearly visible through binoculars / monoculars. All such optical instruments were initially created for observing remote objects, therefore, not all of them are able to work at short distances. When choosing a model for this parameter, one should proceed from the expected observation conditions: ideally, the minimum focus distance should not be greater than the smallest possible distance to the observed object.

Phase correction

The presence of a phase correction system in binoculars / monoculars. This feature enhances image quality, such as resolution and colour reproduction, and minimizes colour distortion. The need to use phase correction is due to the fact that the light waves corresponding to different colours differ in length and penetrating power, which is why they also pass through the optical system in different ways. This may cause image quality degradation. To avoid this, special coatings are used in the prisms installed in the device — they retain the original ratio of colour waves and thus provide phase correction.

Eye relief

The offset is the distance between the eyepiece lens and the exit pupil of an optical instrument (see "Exit Pupil Diameter"). Optimum image quality is achieved when the exit pupil is projected directly into the observer's eye; so from a practical point of view, offset is the distance from the eye to the eyepiece lens that provides the best visibility and does not darken the edges (vignetting). A large offset is especially important if the binoculars / monoculars are planned to be used simultaneously with glasses — because in such cases it is not possible to bring the eyepiece close to the eye.
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