Products reviews
Bushnell Sky Tour 78-9930 Telescope$120.00 to $145.00
Tags:bushnell, sky, tour, 78-9930, telescope, | Meade ETX-80BB (160 x 80mm) Telescope$227.00 to $300.00
Tags:meade, etx-80bb, 160, x, 80mm, telescope, | Celestron NexStar 8 SE (480 x 203mm) Telescope$1,199.00 to $1,200.00
Tags:celestron, nexstar, 8, se, 480, x, 203mm, telescope, |
Educational Insights 5273 (80 x 50mm) Telescope
With the GeoVision microscope and telescope set, you can view everything from a microbe to the moon! The portable 360mm telescope features lightweight metal tube construction and a 50mm achromatic objective lens. The all-glass optics and rack-and-pinion focusing deliver clear, up-close images at magnifications from 20x to 80x. Easy-to-use refractor design and table-top tripod make it perfect for on-the-go discovery. The microscope features durable die-cast metal construction for years of micro-exploring fun.Minimize
Meade ETX-80AT-TC (270 x 80mm) Telescope
All of the major planets except Pluto are easily observable through Meade's brand-new 80mm (3.1) achromatic refractor telescope. You can study Saturn and its ring system; the primary cloud belts of Jupiter and its 4 major satellites; the Moonlike phases of Mercury and Venus; and much more.
Celestron NexStar 8 SE (480 x 203mm) Telescope
The distinctive patented fork arm with ergonomically designed integrated hand control cradle gives solid support to Celestron’s classic 8" optics. The NexStar 8 SE features Schmidt-Cassegrain 8" aperture optics with our premium StarBright XLT coatings and a powerful 2,032mm focal length and f/10 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