Products reviews
Celestron AstroMaster 90AZ (50 x 90mm) Telescope$199.00 to $270.00
Tags:celestron, astromaster, 90az, 50, x, 90mm, telescope, | Bushnell NorthStar 78-8846 (675 x 114mm) Telescope$249.00 to $549.00
Tags:bushnell, northstar, 78-8846, 675, x, 114mm, telescope, | Meade ETX-80BB (160 x 80mm) Telescope$227.00 to $300.00
Tags:meade, etx-80bb, 160, x, 80mm, telescope, |
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
Meade 90AZ-ADR Telescope
Some of the world's top astronomers got started with a telescope just like this one, and so will you. A quality refracting telescope for land or sky viewing. It's perfect for observing the Moon, planets and land objects like mountains, trees, and wildlife.
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
Celestron PowerSeeker 80 EQ (225 x 80mm) Telescope
The Celestron PowerSeeker series of telescopes is designed to give the first-time buyer the perfect combination of quality, value, features and power. Offering exceptional value, these telescopes feature portable yet powerful designs with ample optical performance to excite any newcomer to the world of amateur astronomy.Minimize