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An Explanation of the Resolving Power of Telescope

By Will Kalif

Magnification of a telescope is easy to understand. The higher the power the closer the look we get at images in the night sky (the bigger they look). Resolution is another critical component of telescopes and it is very easy to understand if you think of it like television sets. Older televisions have a certain number of lines of resolution and the new high definition sets have many more lines of resolution so you get a sharper and more detailed image. The same applies to telescopes; the higher the resolution the more lines of information we get so the better the image. And this resolution has nothing to do with magnification. If you get closer to your television does the image get sharper? No. It just gets bigger. The resolution remains the same.

The factors that affect resolution

The wavelength of the light being observed is a factor in resolution. The higher the wave length of the light the more waves a telescope sees so the more information it gets, and the better the resolution. A second factor is the size of the telescope objective. The bigger the lens or mirror the more wavelengths it will gather. And more wavelengths mean better resolution.

Formula for resolution

This relationship between the wavelength of the light and the diameter of the telescope objective gives us, along with a constant, a formula for calculating the resolution in arc seconds. Divide the diameter of the telescope objective by the wavelength of the light being observed then multiply this by 252,000 (which is our constant). This gives you the resolution in arc seconds. (Resolution = 252,000 X (wavelength) /(diameter)). You can see that the larger the telescope the smaller the resolution is in arc seconds. And the smaller the resolution in arc seconds the better. It is like smaller lines on your high definition television. Smaller lines means more lines per inch or centimeter and a crisper, sharper image.

Other Factors in Telescope Resolution

Atmospheric conditions are a big factor in resolution. A turbulent, thick, or unsteady atmosphere will distort the wavelengths coming into the telescope and distort the quality of the light and information. This will reduce the resolving power.

The quality of the telescope is another factor. High quality scopes with good optics will correctly gather good information and give you good resolution. Poor quality optics will distort the images and give you a lesser resolution.

Resolution, while lesser known than magnification is much more important. It is the factor that determines the quality and sharpness of what you see through the telescope and it is the reason why bigger telescopes are better than smaller ones.

You can read a more comprehensive explanation of telescope resolution, with drawings, on the authors website : TelescopeNerd.com

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(click image for more information)

Price as at 16 June 2008: $479.00

ATN Aries MK330 Warrior Generation 1 Night Vision Weapon Sight

The ATN Aries MK330 Warrior is an affordable high quality generation-1 weapon sight. It is the first of ATN’s new line of Night Vision weapon sights produced under the brand name of Black Lion Optics. It sports features such as a new super fast front lens system for optimal brightness easy push button operation and a reticle brightness adjustment. The Warrior also comes with a new detachable 450mw Infrared Illuminator with dedicated windage and elevation adjustments. This new ‘industry-best’ IR lets you see even in total darkness up to 150 yards away!

The controls are ergonomically designed and can be used with ease in total darkness. The scope easily mounts onto any US standard 7/8″weaver rail.

Specifications

  • Generation - 1st
  • Magnification - 3X
  • Lens system - F1:1.7 F90mm
  • FOV - 12 deg
  • Range of focus - 1m to infinity
  • Reticle - Green On Green
  • Windage & elevation adjustments - 1MOA
  • IR illuminator - Super 450mw
  • Battery life - 10-20 hours
  • Dimensions 9″ x4″ x2″
  • Detection range - 150 m
  • Recognition range - 100 m
  • Diopter adjustment +/-5
  • Operating temperature -40 °C to +40 °C
  • Weight 2.2 Lbs

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The C6-SGT 6-inch Schmidt-Cassegrain telescope

(see a video review of this scope by Astronomy Magazine at the end of this post)

Celestron C6-S GT Schmidt-Cassegrain w/XLT Coatings

The C6-SGT 6-inch Schmidt-Cassegrain telescope with XLT coatings is a member of Celestron’s Advanced telescope series. Celestron Advanced scopes combine state-of-the-art technology easy-to-use features and ready-to-use components to produce instruments of unparalleled quality and utility.

The C6-SGT comes mounted on the CG-5 GT computerized equatorial mount that allows access to features like automatic star alignment capability and GoTo slewing to more than 40000 objects. Equipped with high speed motors and hand controler the C6-SGT allows you to slew your telescope remotely to desired objects quickly and accurately.

No matter whether you’re a beginner an intermediate viewer or an advanced amateur astronomer this precision instrument will satisfy your needs both visually and photographically.

Precision-engineered CG-5 mount

This new German equatorial mount has precision worm gears on both axes for extremely smooth tracking motion. The new heavy-duty tripod with larger and more substantial legs offer excellent damping characteristics for more stable views. In fact the CG-5 is the most stable mount in its class. The CG-5 also has a convenient latitude scale for easier alignment and an optional polar finder scope for the ultimate in precision alignments.

XLT coatings

Celestron’s XLT coating process uses state-of-the-art thin-film vacuum-deposition technology. To ensure consistent optical coatings of the highest quality the process is tightly monitored and controlled by highly trained technicians. Prior to coating each optical element is thoroughly cleaned and inspected to ensure proper adhesion of the films during the coating process. Materials used in our reflective and anti-reflective coatings including aluminum hafnium oxide titanium dioxide silicon dioxide and magnesium fluoride are the purest available exceeding 99.99 percent. The result is image-clarity so stunning it must be seen to be believed.

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Specifications

  • Proven NexStar® computer-control technology;
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  • 40000-plus-object database with 400 user-definable objects;
  • Expanded information on more than 200 objects;
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  • variable stars;
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Highly Recommended: Celestron SkyScout Personal Planetarium

HOT INSTRUMENT: Canon 10×42 L Image Stabilization Waterproof Binoculars

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