PVC Telescope 3d printing STEM

Instructable
3d Print a Telescope
Convert Inexpensive Telescopes to 1.25"
Build Scope to 100MM aperture and adapt down to 80mm aperture
Object Lenses
Coatings... Light Blue to reduce reflection many coating are used to hide poor workmanship.
Float Glass Entry Level 100MM x 260MM Focal Length ~$18
Optical Glass for Intermediate and Above 80mm x 600mm Focal Length ~$65 
400MM Starter Scope
AliExpress Lens highly recomended.
Design For inexpensive shipment.
Aperture 3d Printed
Main Tube  4" PVC  100mm ID
Length determined by focal length of lenses added together.
Focusing tube added on to make for being able to adjust between lenses.
Mount to Camera Tripod
1.25" tube adapter for 1.25" or 1.5"  PVC
Flat Black Paint

Finder Scope
 II
Eyepieces
Eyepiece Kit
Erecting Prism 45º Terrestrial & Heavens  90º Heavens
Barlow Lens
Digital Camera Adapter TPU

Focusers
Unlike microscopes, eyepieces for telescopes are interchangeable. However, not all eyepieces will work equally well for all telescopes, the shorter focal ratio telescopes are very hard on simpler and less well corrected eyepieces. They will work well in telescopes with a focal ratio of F/6 or more if they are of good quality. But you do not have to use only Celestron eyepieces with a Celestron telescope, you can use any eyepiece you want as long as it's barrel fits the diagonal.
https://www.skyatnightmagazine.com/advice/skills/eyepieces-the-basics/

A small refractor on a sturdy tripod will enable you to pick out more detail than with 10x50 binoculars. Credit: Pete Lawrence
Amazon Telescopes

X/Y Sliding Tables
A 20mm eyepiece on a 2000mm telescope (2000 / 20) gives you 100 power (100x), this makes objects appear 100 times closer to you through the telescope than they appear to your unaided eye.

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Barlow Lens
Telescopes and eyepieces turn an image upside-down.
This is not a problem when observing astronomical objects, but is rather annoying for terrestrial
observations like bird watching. To correct this, an erecting prism or Porro prism, either
straight through or angled, is used to turn the image right side-up.

https://skyandtelescope.org/astronomy-equipment/telescope-eyepiece-guide/#:~:text=The%20largest%2Dfocal%2Dlength%20eyepiece,should%20use%20is%2035%20mm.
Instructable
Magnification = Telescope Focal Length (mm) / Eyepiece Focal Length (mm)


    A 20mm eyepiece on a 2000mm telescope (2000 / 20) gives you 100 power (100x), this makes objects appear 100 times closer to you through the telescope than they appear to your unaided eye.
https://optcorp.com/blogs/telescopes-101/choosing-best-telescope-eyepieces
The easiest and fastest way to roughly evaluate a lens focal length is to hold it under a ceiling light.
A projection screen (the floor, or the surface table) is under the lens. The optical element is moved vertically
 back and forth until a sharp image of the ceiling light is projected on the screen. The distance between
the lens and the projection surface gives an idea of the focal length. Of course, there is no precision
with this technique, but it can be used to check the results obtained with other methods.
https://wp.optics.arizona.edu/optomech/wp-content/uploads/sites/53/2016/10/Tutorial_MorelSophie.pdf

EYE RELIEF

Eye relief: Hold an eyepiece up to a light (other than the Sun) and bring it close to your eye. The distance between your eye and the eyepiece at the point where you first see the entire black circular field stop (allowing you to see the maximum field of view) is the eye relief.

Eye relief should be fairly long for comfortable viewing, particularly if you must wear eyeglasses, where you will need a minimum of 15mm of eye relief to seethe entire field of view. Even if you don't wear glasses, very short eye relief can allow your eyelashes to touch the eyepiece, transferring oils from your lashes to the lens. This can eventually damage eyepiece coatings, so examine your eyepieces frequently and clean them as needed.

Eye relief usually decreases as eyepiece focal lengths get shorter, so if you wear glasses you may want to use a Barlow lens in conjunction with a longer focal length eyepiece to get both satisfactory eye relief and  high power. In any case,if you wear glasses, your inability to get your eye close to the eyepiece will not result in out-of-focus images, merely a narrowing of the field of view.

Manufacturers measure eye relief from the last surface of the eyepiece eye lens(the lens closest to your eye) to where the image is formed. While this is the technically accurate way to measure eye relief, it can often lead to misleadingly long eye relief figures. Since the eye lens is usually recessed within the eyepiece body to protect the lens from damage, you can't use that portion of the eye relief that's recessed within the eyepiece body. To calculate the usable eye relief, we measure the eye relief from the rim of the eyepiece or eyeguard (where an observer's eye or eyeglasses touch, which limits how close you can get to the eye lens) to where the image forms. Accordingly, our eye relief figures are usually shorter than the manufacturers' technically correct






   Nominal Pipe Size       O.D.        Average I.D.    Average ID MM
    Min. Wall        Nominal wt./ft.        Maximum W.P PSI    
1/8".405.249
.068.051810
1/4".540.344
.088.086780
3/8".675.473
.091.115620
1/2".840.602
.109.170600
3/4"1.050.804
.113.226480
1"1.3151.029
.133.333450
1-1/4"1.6601.360
.140.450370
1-1/2"1.9001.590
.145.537330
2"2.3752.047
.154.720280
2-1/2"2.8752.445
.2031.136300
3"3.5003.042
.2161.488260
3-1/2"4.0003.521
.2261.789240
4"4.5003.998101mm
.2372.188220Lens
5"5.5635.016
.2582.874190
6"6.6256.031152.184
.2803.733180
8"8.6257.942
.3225.619160
10"10.7509.976
.3657.966140
12"12.75011.889
..40610.534130
14"14.00013.073
.43712.462130
16"16.00014.940
.50016.286130
18"18.00016.809
.56220.587130
20"20.00018.743
.59324.183120
24"24.00022.544
.68733.652120