![]() ![]() Then choose the eyepiece that suits your viewing needs, Insert it into the focuser tube, and tighten the screws to keep it in place. The last thing you need to do is attach the red dot viewfinder to the telescope’s top. When the mounting head is secured and tightened, take the telescope tube with a dovetail mounted on the bottom and attach it to the mount with the knob. The azimuth lock knob is on the side of the mount head. The panhandle controls the movement of the mount, and it also works as a lock for the altitude swivel. You also need to thread the panhandle into the mounting head mouth hole. When screwing the mounting head to the tripod, make sure it is not too tight that it can’t move. Then attach the bolt and tighten it up from the bottom. Take out the bolt on the bottom and place the head on the tripod. Next, take the mounting head, which has a metal construction. ![]() You can use this tray to place your eyepieces and Barlow lenses during the stargazing session. Take the accessory tray and mount it on the spread bar by twisting it into a secure position. Open the box containing the tripod, spread out the legs, and push the spreader bar between the legs. In one of the boxes is the telescope and in the other are the tripod and panhandler. But be careful while unboxing, so the two boxes inside do not fall apart.Īfter removing the two boxes, you will find the spreader tripod plate that also serves as an eyepiece holder. When you unbox the telescope, on the one hand, you will find the manual you can refer to as you go along. This telescope comes almost completely preassembled, so setting it up is relatively straightforward and can be done in a few simple steps: Unbox and assemble the tripod You may also like: What Can You See With a 70mm Telescope? How to set up the National Geographic Telescope NT114CF? The aperture, the quality of the optics, and atmospheric conditions also play a significant role in the viewing experience. Some deep-sky objects are even larger than the Moon in the sky, and a low-power eyepiece will provide a better view of the entire object.Īlso, note that magnification is not the only factor that determines the quality of the image. It’s important to note that while high power or magnification is good for viewing the Moon and planets, it’s better to use a low-power eyepiece for most deep-sky objects to achieve a larger field of view. To achieve this magnification, place the Barlow lens into the eyepiece holder before placing the eyepiece onto the Barlow lens. The included Barlow lens in the box can help double the eyepiece magnification to 38x and 103x. Using NT114CF as an example, magnification is calculated by dividing the focal length of this telescope (500mm) by the focal length of the eyepiece (26mm, 9.7mm), which will give you 19x and 51x magnification. The magnification of a telescope is determined by its focal length and the eyepiece’s focal length. You may wonder how magnification, also called the power of the telescope, is calculated. The National Geographic Telescope NT114CF ships with two Possl eyepieces (9.7mm & 26mm) and 2x Barlow Lens that provide magnifications ranging from 19x to 103x. What is the magnification of the National Geographic Telescope NT114CF? Carbon fiber-look optical tube assembly.Pan and tilt control on an alt-azimuth mount.Red dot viewfinder and downloadable astronomy software.The following is a list of what is included in the box. The National Geographic NT114CF Telescope ships with everything you need to get started with stargazing. Read also: Maksutov Newtonian Telescopes (In-depth Guide) What is included in the National Geographic Telescope NT114CF box? 2x Barlow lens (doubling the eyepiece magnification).26mm and 9.7mm Plossl eyepieces (19x and 51x magnification).This telescope is the perfect choice for kids and beginners and has the following specifications: It has a carbon-fiber body, which is an excellent feature among telescopes because it helps significantly reduce the instrument’s weight. National Geographic NT114CF is a Newtonian carbon fiber reflector telescope that uses mirrors to produce images instead of lenses (refracting telescope). ![]()
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