Products reviews
Bushnell NorthStar 78-8846 (675 x 114mm) Telescope$249.00 to $549.00
Tags:bushnell, northstar, 78-8846, 675, x, 114mm, telescope, | Celestron NexStar 6 SE (354 x 55.88mm) Telescope$790.00 to $1,100.00
Tags:celestron, nexstar, 6, se, 354, x, 55.88mm, telescope, | Celestron PowerSeeker 80 EQ (225 x 80mm) Telescope$107.00 to $160.00
Tags:celestron, powerseeker, 80, eq, 225, x, 80mm, telescope, |
Celestron NexStar 102 SLT (200 x 102mm) Telescope

The popularity of our previous short tube refractor models inspired us to go a step further with the introduction of our NexStar 102 SLT. You'll find that astronomical viewing is a delight with this large, powerful 4 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.
Meade NG-70 (140 x 70mm) Telescope

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
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