Turn on the Right Ascension tracking mechanism so that the marker indicates the Local Sidereal Time. Most constellations move depending on the time of year, but you can identify their location through astrophotography software. You can identify stars, planets, or constellations that are near your latitude. Moreover, a clear image will be useful in astrophotography because it enables you to capture clear images.Īn excellent way to determine the accuracy of a telescope regarding pointing your telescope towards Polaris is identifying fixed celestial bodies. It will be necessary to make adjustments to your high-powered eyepiece to clarify images. You can make a few adjustments to clarify your sight. Once you identify that you can see clearly under the low power eyepiece, you can move onto the medium eyepiece and try to see the sky for ten minutes straight. Start by tracking celestial objects using the low-power eyepieces for tens of minutes continuously. Start by tracking celestial objects using various lenses. There are several steps to achieving a successful trial test and making crucial adjustments to achieve accurate Polaris. Step 4: Trial TestĪ trial test is the only way to identify whether your telescope faces Polaris when you can’t see the celestial body. Constantly adjust your telescope’s declination according to the latitude of your observation field. Overall, the telescope shouldn’t move in declination when you move it in the East and West directions when looking up at the sky. If your telescope doesn’t meet the previous requirement, you need to start the adjustment process again. Your optical axis should be aligned to the East-West direction, and the Right Ascension pointer should point 6 hours away from the local Meridian. The measurement of the declination circle should be 0º, even when you have two declination circles. You don’t need to adjust the elevation once you can track celestial bodies 110 KM north or south without losing them. Your optical aperture should align with the East-West line for the telescope to face the local Meridian.Īdjust the Elevation of the Polar Axis until your observation field doesn’t change by more than 1º degree in latitude. Use your meridian marker to match it to the Right Ascension indicator. You can speed up the process by pointing your telescope into a local meridian. Once your mount is level, you need to mount your telescope and adjust for elevation. Step 2: Mount Telescope and Adjust Elevation It’s challenging to level a base when the telescope is mounted because it will be heavy. Use a bubble level to adjust the tripod until it is level before mounting a telescope. Set the tripod on the lines such that two legs are standing on the west and east line, while the final leg stands in the north or south direction. The final product should be an X spot when your telescope should be. Also, draw another line showing east and west. Go to the location you want to place your telescope and draw a line pointing North. Use a compass to determine north or south, depending on your geographic location.Įnsure that there aren’t any metal components when near the compass when identifying North and South. Start by aligning the base of the telescope to the celestial polar axis. Keep software that maps stars near to help you identify stars when you are at unfamiliar locations. Moreover, you’ll need a ruler and pencil to mark the compass where you will place your telescope.Īlternatively, you can use duct tape to create a compass on the floor to place a telescope on top.Īdditionally, it would help if you had a laptop to help you record your readings and identify your positions concerning the Polaris. You will require a compass to identify North, south, east, and west on your location.
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