Products reviews

Celestron AstroMaster 70 AZ (160 x 70mm) Telescope

$92.00 to $119.00



The AstroMaster produce bright, clear images of the Moon and planets. It is easy to see the moons of Jupiter and the rings of Saturn with every one of these fine instruments.

Manufacturer:Celestron Product MPNKey FeaturesMiscellaneous
MPN21061
Optical Design   Refractor
Optical Diameter70 mm
Focal Length900 mm
Max Useful Magnificationx 160
Mount Type   Altazimuth
MotorizedNo
UPC4047825023193


Tags:

celestron, astromaster, 70, az, 160, x, 70mm, telescope,

Meade LXD75 SN-8 AT (08047502) (500 x 203mm) Telescope

$1,199.00 to $1,290.00



Meade LXD75 SN8-AT UHTC is an 8 inch Schmidt-Newtonian reflector type telescope with 812mm focal length and fast f/4 aperture and Meade Ultra High Transmission Coating, for 20% more image brightness over its non-UHTC sister model.

Manufacturer:Meade Product MPNKey FeaturesMiscellaneous
MPN08047502
Optical Design   Newtonians
Optical Diameter203 mm
Finderscope   Optical
Focal Length812 mm
Max Useful Magnificationx 500
Mount Type   Equatorial
MotorizedYes
UPC709942380569


Tags:

meade, lxd75, sn-8, at, 08047502, 500, x, 203mm, telescope,

Meade LXD75 SN-8 AT (08047502) (500 x 203mm) Telescope


Meade LXD75 SN8-AT UHTC is an 8 inch Schmidt-Newtonian reflector type telescope with 812mm focal length and fast f/4 aperture and Meade Ultra High Transmission Coating, for 20% more image brightness over its non-UHTC sister model.

Celestron NexStar 130SLT (31145) (306 x 130mm) Telescope


Computerized hand control with 4,000-object database SkyAlign allows you to align on any 3 bright celestial objects Motorized Altazimuth mount Focal ratio: f5 Focal length: 650mm

Celestron AstroMaster 90AZ (50 x 90mm) Telescope


The AstroMaster produce bright, clear images of the Moon and planets. It is easy to see the moons of Jupiter and the rings of Saturn with every one of these fine instruments.

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.