Products reviews

Galileo FS-80 Telescope

$65.00 to $80.00



The Galileo FS-80 reflector telescope is a great beginner's reflecting telescope. The large 80mm primary mirror cell collects 33% more light than a 60mm refracting telescope. 1.25 focus housing permits the use of larger higher quality 1.25 eyepieces. Yoke mount makes the telescope easy to manage through altitude / azimuth (Up & Down, Left & Right) movement, and altitude slow motion control rod for precision adjustmentsMinimize

Manufacturer:Galileo Product MPNKey FeaturesMiscellaneous
MPNFS-80
Optical Design   Refractor
Optical Diameter80 mm
Focal Length800 mm
Mount Type   Altazimuth
MotorizedNo
UPC798932000808


Tags:

galileo, fs-80, telescope,

Meade NG-70 (140 x 70mm) Telescope

$62.00 to $100.00



Recently upgraded from 60mm to 70mm aperature, Meade's NG70 telescope combines improved light-gathering ability with light-loss-reducing special optical coatings to produce noticeably sharper images of both celestial and terrestrial objects, making for a much better viewing experience. All the major planets except Pluto are clearly visible. The Moon stands out in near three-dimensional detail, revealing craters, mountain ranges, and fault lines. Dozens of external galaxies are visible; and, in our own Milky Way, this telescope displays hundreds of nebulae, star clusters, double and multiple stars, and variable stars.Minimize

Manufacturer:Meade Product MPNKey FeaturesMiscellaneous
MPNNG70
Optical Design   Refractor
Optical Diameter70 mm
Finderscope   Optical
Focal Length700 mm
Max Useful Magnificationx 140
Mount Type   Altazimuth
MotorizedNo
UPC709942214758


Tags:

meade, ng-70, 140, x, 70mm, telescope,

Celestron PowerSeeker 127 EQ 21049 (750 x 127mm) Telescope

$120.00 to $160.00



The PowerSeekers come in a choice of refractor or reflector, equatorial or altazimuth mount design. The PowerSeekers come with all coated glass optical components with for enhanced image brightness and clarity. The Newtonian reflectors offer larger aperture and greater light gathering power needed to resolve the faint detail of hundreds of deep-sky and other celestial objects.Minimize

Manufacturer:Celestron Product MPNKey FeaturesMiscellaneous
MPN21049
Optical Design   Newtonians
Optical Diameter127 mm
Finderscope   Optical
Focal Length1000 mm
Max Useful Magnificationx 750
Mount Type   Equatorial
MotorizedNo
UPC050234210492


Tags:

celestron, powerseeker, 127, eq, 21049, 750, x, 127mm, telescope,

Meade LXD75AR-6 Telescope


Diffraction-Limited Optics Meades Schmidt-Newtonian and Schmidt-Cassegrain optics yield pinpoint stellar images over an extremely wide field-of-view with only half the coma of standard Newtonians of the same focal ratio.

Celestron CPC 1100 GPS (XLT) (70 x 280mm) Telescope


The largest aperture of the CPC GPS line, The CPC 1100 GPS Schmidt-Cassegrain telescope has the most light gathering power and has a limiting magnitude of nearly 15. The CPC 1100 GPS takes full advantage of its vast database of thousands of NGC and Abell galaxies as well as delivering a new level of detail to all your favorite deep sky objects. This CPC 1100 GPS features Celestron's premium StarBright XLT coatings.Minimize

Celestron PowerSeeker 127 EQ 21049 (750 x 127mm) Telescope


The PowerSeekers come in a choice of refractor or reflector, equatorial or altazimuth mount design. The PowerSeekers come with all coated glass optical components with for enhanced image brightness and clarity. The Newtonian reflectors offer larger aperture and greater light gathering power needed to resolve the faint detail of hundreds of deep-sky and other celestial objects.Minimize

Meade DS-2080ATS Telescope


Meade Digital Series telescopes bring microprocessor technology and the very latest in electromechanical design to the serious beginning or intermediate observer. Completely re-engineered and redesigned, Meade DS-2080AT telescopes provide extremely smooth motions in both altitude and azimuth, and, most importantly, include a fully integrated Autostar control system as standard equipment. Oversize bearings on both telescope axes of all models negate the imprecisions found universally, virtually without exception, on competing models.Minimize