Products reviews
Celestron Omni XLT 127 (300 x 127mm) Telescope$573.00 to $629.00
Tags:celestron, omni, xlt, 127, 300, x, 127mm, telescope, | Meade DS-2080ATS Telescope$249.00 to $300.00
Tags:meade, ds-2080ats, telescope, | Celestron CPC 1100 GPS (XLT) (70 x 280mm) Telescope$2,799.00
Tags:celestron, cpc, 1100, gps, xlt, 70, x, 280mm, telescope, |
Carson Optical SkyWatcher™ JC-1000 (100 x 60mm) Telescope
Carson's SkySeeker SkyWatcher 40-100x60 JC-1000 Tripod has precision for high-quality imaging. SkySeeker 40-100x60 deluxe aluminum toy tripod, making these quite functional toys indeed. Tripod is convenient, easy to use.
Bushnell NorthStar 78-8890 (300 x 90mm) Telescope
The NorthStar® telescopes offer amateur astronomers state-of-the-art computer-driven location and tracking capability with simple, push-button control. With a built-in data base of 20,000 celestial objects, you simply call up your target on the hand-held control module, enter a simple "Go To" command and the NorthStar computer does the rest. Once locked on, tracking the object for prolonged viewing is automatic. The innovative RVO (Real Voice Output) feature provides a fun, interactive way to explore the night sky. The remote, hand-held control module features red, backlit push buttons and a red, illuminated LCD read-out for easy viewing without impairing your night vision. Minimize
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 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