Finding Objects, Focusing, Image Orientation

the side and bottom of the Star Pointer. The alignment procedure is best done at night since the LED dot will be difficult to see during the day.

1.To turn on the Star Pointer, rotate the variable brightness control clockwise until you here a "click". To increase the brightness level of the red dot, continue rotating the control knob about 180º until it stops.

2.Locate a bright star or planet and center it in a low power eyepiece in the main telescope.

3.With both eyes open, look through the glass window at the alignment star.

If the Star Pointer is perfectly aligned, you will see the red LED dot overlap the alignment star. If the Star Pointer is not aligned, take notice of where the red dot is relative to the bright star.

Without moving the main telescope, turn the Star Pointer's azimuth and altitude alignment controls until the red dot is directly over the alignment star.

If the LED dot is brighter than the alignment star, it may make it difficult to see the star. Turn the variable brightness control counterclockwise, until the red dot is the same brightness as the alignment star. This will make it easier to get an accurate alignment. The Star Pointer is now ready to be used . Remember to always turn the power off after you have found an object. This will extend the life of both the battery and the LED.

Finding Objects

1. Loosen the altitude locks on the sides of the telescope tube and the silver azimuth lock on the base of altazimuth mount, then move the telescope in the desired direction.

2. Look through the Star Pointer finderscope and pan the telescope until the object appears in the field of view. Once it’s in the field, tighten the altitude and azimuth locks.

3. To center the object with the red dot in the Star Pointer, use the fine adjustment ring on the altitude slow motion rod assembly.

Focusing

1. Once you have found an object in the telescope, turn the focusing knob until the image is sharp.

2. To focus on an object that is nearer than your current target, turn the focusing knob toward the eyepiece (i.e., so that the focusing tube moves away from the front of the telescope). For more distant objects, turn the focusing knob in the opposite direction.

3. To achieve a truly sharp focus, never look through glass windows or across objects that produce heat waves, such as asphalt parking lots.

Image Orientation

1. When observing with a diagonal, the image will be right side up, but reversed from left to right.

2. When observing straight through, with the eyepiece inserted directly into the telescope, the image will be inverted. Also, the image in the finderscope is inverted.

MAGNIFICATION

The magnification (or power) of a telescope varies depending upon the focal length of the eyepiece being used and the focal length of the telescope.

The Firstscope telescope has a focal length of 700mm and comes with a 20mm 1¼" eyepiece. To calculate magnification, use the following formula, in which FL = focal length:

	Magnification =	FL (telescope) in mm
	Magnification =	FL (eyepiece) in mm
		FL (eyepiece) in mm
		6

21052, Refractor, 70 AZ, 60 AZ, 21071 specifications

The Celestron 21052 and 21071 are standout models in the brand's renowned refractor telescope range, ideal for both novice astronomers and seasoned stargazers. The 70 AZ and 60 AZ options provide exceptional portability while still delivering impressive optical performance.

The Celestron 21052, featuring a 70mm aperture, is designed to capture bright and clear images of celestial objects. Its refractor design utilizes high-quality glass optics that reduce chromatic aberration, ensuring that colors are rendered accurately and clearly. With a focal length of 700mm, it offers a suitable balance of magnification and field of view, making it perfect for observing planets, star clusters, and even some of the brighter deep-sky objects.

The portable design of the 70 AZ model makes it easy to transport to various viewing locations. It comes with a sturdy, adjustable tripod that provides excellent stability during observations. Additionally, a smooth altazimuth mount allows for easyTracking of celestial objects as they move across the night sky. The telescope also includes a finder scope, which aids in locating objects quickly, enhancing the overall viewing experience.

The Celestron 21071, featuring a slightly smaller 60mm aperture, is a fantastic choice for beginners looking to get into astronomy without a hefty investment. Despite its compact size, the 60 AZ still offers great optical quality, making it possible to view the Moon's craters, Jupiter’s moons, and more with remarkable clarity. The 60 AZ is designed for quick setup and portability, making it ideal for impromptu stargazing sessions.

Both models come with a variety of accessories that enhance usability, including multiple eyepieces for different magnification levels and a star map to help users locate celestial objects. The telescopes are also compatible with a smartphone adapter, allowing users to capture images of their observations and share them with friends or social media.

Ultimately, the Celestron 21052 and 21071 refractor telescopes exemplify quality design and ease of use, making them excellent choices for anyone interested in exploring the night sky. With their user-friendly features and excellent optics, these telescopes provide a window to the wonders of the universe, encouraging a lifelong passion for astronomy.

Finding Objects

Focusing

Image Orientation

MAGNIFICATION

FL (eyepiece) in mm

21052, Refractor, 70 AZ, 60 AZ, 21071 specifications