The Celestron C90 Mak Spotting Scope is an excellent choice for both terrestrial and astronomical use. The C90 Mak Spotting Scope by Celestron features the Maksutov optical design, which is recognized forimage being a portable design that is easy to use and has a variety of applications. The C90 Mak has excellent optics with razor sharp images over a wide field.
It has an Erect Image System that allows the user to view celestial objects at a 90 degree angle and also corrects the image orientation to view land objects. The full-featured spotting scope is also multi-coated, and comes with a quality eyepiece. This Celestron Spotting Scope features durable black rubber armor for protection, a compact and portable design, and comes with a nylon backpack. Designed to perform well in a range of viewing situations, making it a great all-around optical instrument.
Specifications for Celestron C-90 Mak Spotting Scope:
Optical Design: Maksutov
Aperture: 90 mm (3.54 in)
Focal Length: 1250 mm (49.21 in)
Focal Ratio: 13.89
Angle: 0 or 45 °
Eyepiece 1: 32 mm (1.26 in)
Magnification 1: 39 x
Carrying Case: Backpack made of nylon
Angular Field of View: 1.3 °
Linear Field of View (@1000 yds): 68 ft (20.73 m)
Linear Field of View (@1000 m): 23 m (75.46 ft)
Eye Relief: 20 mm (0.79 in)
Near Focus (Binoculars): 15 ft (4.57 m)
Optical Coatings: Multi-Coated
Tripod Adaptable: Yes
Camera Adaptable: Optional T-Adapter
Optical Tube Length: 16 in (406.4 mm)
Weight: 5 lb (2.27 kg)
Features of Celestron C 90 mm Maksutov Spotting Scope:
Multi Coated Optics
Maksutov-Cassegrain Optical Design
Compact and Portable Design
Erect Image System for Terrestrial and Astronomical Use
Built-in T-Adapter threads for Ease of Adapting SLR Cameras
Comes with 32 mm Eyepiece, 45° Erect Image Diagonal and 8x21 Erect Image Finderscope
Backpack Made of Nylon
No Fault Limited Lifetime Warranty
Celestron C90 Mak Spotting Scope 52268
45° Erect Image Diagonal
8x21 Erect Image Finderscope
The Maksutov is a catadioptric telescope design that combines a spherical mirror with a weakly negative meniscus lens in a design that takes advantage of all the surfaces being nearly "spherically symmetrical". The negative lens is usually full diameter and placed at the entrance pupil of the telescope (commonly called a "corrector plate" or "meniscus corrector shell"). The design corrects the problems of off-axis aberrations such as coma found in reflecting telescopes while also correcting chromatic aberration. It was patented in 1941 by Russian optician Dmitri Dmitrievich Maksutov. Maksutov based his design on the idea behind the Schmidt camera of using the spherical errors of a negative lens to correct the opposite errors in a spherical primary mirror. The design is most commonly seen in a Cassegrain variation, with an integrated secondary, that can use all-spherical elements, thereby simplifying fabrication. Maksutov telescopes have been sold on the amateur market since the 1950s.
A spotting scope is a small telescope that has been modified for use by day. A spotting scope differs from an astronomical telescope in several important ways. First, a spotting scope always produces an upright image whereas a telescope used in astronomy may produce a reversed image or even an upside down image (not a problem for astronomy). Second, a spotting scope is much smaller in size than an astronomical telescope, mainly for the sake of portability. Third, a spotting scope is a lower magnification instrument than a telescope, since the atmosphere by day does not allow the high magnifications used in astronomy. Fourth, a spotting scope is mounted on an ordinary photo tripod, but a telescope for astronomy requires a very specialized mount, often unsuitable for daytime use. Lastly, many, if not most, spotting scopes are waterproof and fogproof - a rare feature in an astronomical telescope.
Spotting scopes are used anytime you need more magnification than a binocular provides. Spotting scopes are widely used for birding, surveillance, hunting, and viewing landscape, wildlife, ships and other distant objects. Spottin g scopes are also used for scoring targets on rifle, pistol and archery ranges and they can also be used to some astronomy. Last, but not least, spotting scopes are also used to take long distance pictures with a variety of cameras.
Most spotting scopes are labeled with three numbers. The first two numbers represent the magnification range and the last number is always the size of the front lens. For a 15-45x60 model, then, you have a spotting scope with a zoom magnification range of 15-45x with a front lens of 60mm diameter.
Spotting scopes begin in magnification where conventional binoculars stop. The higher magnifications offered by a spotting scope allow you to view birds, wildlife, scenery and other objects that are well beyond the range of a conventional binocular. However, there are limits to magnification. Two things determine how much magnification you can use in a spotting scope.
The first is the atmosphere. You must always factor in the seeing conditions of the atmosphere when using a spotting scope. Heat waves, dust, humidity, glare, wind and air currents during the day all reduce image quality and the greater the magnification, the more drastic the reduction in image quality. Simply put, there will be days when anything over 30x will appear as mush, but there will also be those clear, calm days when you can use 60x to good advantage. In general, high altitudes and dry climates favor high magnification whereas wet, humid, low-altitude climates discourage high magnification. Very few locations, however, allow you to use more than 60-80x during the day, so most spotting scopes stop at 60x. Many beginners make the mistake of buying an astronomical telescope that can magnify hundreds of times for day use, only to discover that the atmosphere still limits them to around 60x and quite often, much less.
The atmosphere, for the same reason, also limits how much detail you can see at great distances. Seeing tiny detail, such as a person's facial features, at a mile or more through an ocean of turbulent, ever-moving air is simply not possible, no matter how much magnification you use or no matter how large or expensive the instrument. Spotting scopes are great, but they can't work miracles. On the other hand, it is quite possible to view large objects such as ships at this distance, though the image may be blurry or wavy.
The second major limit on magnification is the optical system of the spotting scope, itself. Regardless of the model, there will always be some drop off in image quality as magnification goes up. This is determined somewhat on the design and size of the scope, but primarily on the quality of the optical system. Here you get what you pay for in a very visible way. Inexpensive spotting scopes, regardless of size or type, lose image quality quickly as magnification goes up, but premium grade scopes lose very little in image quality, even at the highest magnification. Be prepared to pay, however, if you want a spotting scope that is as sharp at 60x as it is at 20x. Only a handful of very expensive spotting scopes are capable of this.
Most observing with a spotting scope, though, is done at lower magnifications, usually around 30x-40x. This is more than enough for most applications and all but the cheapest model will produce reasonable images in this magnification range.
The larger the objective lens, the more detail you can see and the better image quality your scope will deliver, especially at higher magnifications, assuming you are comparing two models of similar quality. However, a large lens of mediocre quality, no matter how large, will never equal the performance of a smaller, quality lens. When in doubt, go for quality, not size.
You can also improve the performance of any spotting scope, especially at higher magnifications, with special quality glass (ED glass, APO glass, HD glass, Fluorite glass) in the objective. This option will cost you more, but it can deliver image quality on a par with a larger objectives made of standard glass. If portability is an issue, a smaller model with ED glassor other special glass may be all the spotting scope you will ever need.
If you need the absolute best in performance, however, there is still no substitute for a large, quality objective made with high performance glass.
Prism Type And Telescope Design
Most spotting scopes these days are refractors, the same design used in binoculars and many telescopes. As with a binocular, a prism (inside the spotting scope) is used to turn the image right side up and correct it right to left. Two prism types are used in a refractor style spotting scope.
Porro prism spotting scopes are by far the most common and for good reason. The porro prism design is the most efficient in terms of optics and is also the easiest and least expensive prism to produce. Bak-4 glass is the preferred glass in a porro prism and will be used in all but the very cheapest spotting scopes. BK7 in a spotting scope is a sign of low quality spotting scope.
Roof prism spotting scopes offer the advantage of being slim and compact, but they are not as efficient as a porro prism and usually lack many of the added features of the porro prism design such as interchangeable eyepieces, camera adapters and so on. About the only reason to choose a roof prism spotting scope these days is for applications calling for extreme portability. However, if you expect any kind of performance in a roof prism, you will need to choose a PC (phase-coated) roof prism model.
There are designs other than a refractor to consider. A Maksutov design is sometimes used in a spotting scope and some of these models use the same eyepieces found in astronomical telescopes, making them good choices for people who want to use a scope by day and by night.
Although not an absolute necessity, a spotting scope with a close focus of less than 20 ft can be useful, especially if you plan to use a spotting scope with a camera.
"Keep your expectations in line with price and buy according to your needs," is excellent advice for any optical instrument, but it applies especially to spotting scopes. There is a huge gap in performance and price between low quality scopes and premium grade scopes. For many applications, you can get by with a low or medium priced model, but if you need the performance of a high grade model, there's no getting by cheap. You must pay the price.
This is the distance your eye can be from the eyepiece and still see the entire field of view. This is an important feature if you wear eyeglasses when you observe or if you are not in a position to get close to the eyepiece. As a general rule, you will need at least 14mm of eye relief to see the entire field of view with eyeglasses and people with thick glass lenses in their eyeglasses will probably need more.
A waterproof spotting scope is not a necessity for many applications, but it is still a good feature to have, even so. The seals in a waterproof model also keep out dust and dirt and therefore add to the lifespan of the spotting scope.
Lens coating improve light transmission which is important in a high magnification instrument such as a spotting scope. In order of increasing quality and performance, you will find "fully coated" , then "multi-coated", then "fully multi-coated". All premium grade models are fully multi-coated, often with special chemical formulas that vary from manufacturer to manufacturer.
When shopping, be careful. Some spotting scopes include the eyepiece in the price and some do not.
Most low to medium priced spotting scopes include the eyepiece and many of these do not allow the eyepiece to be removed anyway. Higher priced spotting scopes, though, offer removable eyepieces and a selection of eyepieces for different applications. On these models, the eyepiece is often NOT included in the price. When you see a model advertised as "body only" it means just that. You still need to buy an eyepiece and add it to the price of the spotting scope.
Despite some optical advantages to a single power eyepiece, most people prefer the convenience of a zoom eyepiece. This is especially true of applications where there is little time to change an eyepiece to get a better look. A zoom eyepiece also allows you to change magnification quickly and easily as atmospheric conditions change.
Be warned, however, that inexpensive zoom eyepieces are notorious for low image quality and poor eye relief. High grade zoom eyepieces, on the other hand, excel in these two categories, but often cost as much as a mid-priced spotting scope.
Many spotting scopes, but not all, are camera adaptable. Much depends on the type of camera being used. SLR cameras (cameras with removable lenses) require very specific adapters, but you can attach a small digital point and shoot camera to nearly any spotting scope with a universal digital adapter such as the Barska, http://www.opticsplanet.net/barska-digiscoping-adaptor.html or Zhumell, http://www.opticsplanet.net/zhumell-universal-digiscoping-adapter.html. This is called "digiscoping" and is a fun and effective way to take pictures through a spotting scope. Just be sure to measure the diameter of the eyepiece on your spotting scope and order accordingly.
This is a useful feature for a spotting scope which will be seeing hard use out in the field, but not necessary for more casual applications. If you are concerned about scratches, many spotting scopes can also be fitted with an optional zippered nylon case which can be left on the scope when in use.
Choose carefully, here. If you are ever tempted to leave a spotting scope behind due to weight, you may be carrying too much scope. A spotting scope and tripod used from a permanent location or from a vehicle is one thing, but a spotting scope and tripod carried on your shoulder as you hike is quite another. A 60mm or 65mm model also requires less in the way of a tripod, so you can also save weight on this essential piece of equipment as well.
You cannot handhold a spotting scope due to its high magnification. It must be supported to steady it. You can get by at lower magnifications with a monopod or shoulder stock, but above 40x, you must use a tripod and the larger and heavier the scope, the larger and heavier the tripod should be. A car window mount is a viable option, though, if you are observing from a vehicle.
There is no need to buy a special tripod for a spotting scope. All spotting scopes are threaded like a camera and will fit on any standard camera/video tripod.