| Field | M34 | 3/28/25 | Phoenix, AZ |
| Results | M34 | 3/28/25 | Phoenix, AZ |
| Notes | * Image quality is very poor and you can see stacking at the edges * Could I have bumped it? 2 bottles of wine in I may have done something * Not sure what I screwed up - maybe the polar alignment? * Try it again tonight around 8 and maybe do the 'dark' calibration beforehand * Kids, Dont drink and atrophotograph |
| Object Name | Messier 34 |
| Type of Object | Open Star Cluster |
| Catalog ID | NGC 1039 |
| Date | 3-28-25 |
| Time | 8:00 PM |
| Location | 10210 N 37th Ave, Phoenix, AZ |
| Power | |
| Instrument | Dwarf II Image resolution: 8 megapixel (tele), 2 megapixel (wide) Aperture Diameter: 24 mm Focal Length: 100mm (equivalent focal length 675mm (tele) and 48mm (wide) F-number: 4.2 for telephoto, 2.4 for wide-angle Field of view: 3-degrees (Tele), 50-degrees (Wide) Sensor: SONY IMX415 Starvis |
| Polar Alignment | Yes |
To polar align the Dwarf II telescope, you need to mount it with the axis of the base (azimuth axis) pointing in the same direction as the Earth’s axis of rotation. In the northern hemisphere, you can align the Dwarf 2 with Polaris (the north star) to resolve this issue. | |
| Filter Used | None |
ND filters come in a variety of densities with the number in its product name (i.e. 50) signifies the amount of light it can transmit (50 being 50%, 10 being 10%, and so on). Essentially the higher the density, the better it is in reducing the glare in the image. Planetary filters play a very important role in observing planets because each of our galaxy’s planets has their own color characteristic. The space objects might also add unique light pollutants to the planet observed making these narrow wavelengths of light unwanted. #8 Yellow – great neutral color that won’t change the natural color of the Moon while effectively improving contrasts. #12 Yellow – great for Mars, and might also help with certain conditions of moon viewing. #21 Orange – number 21 is great for Moon and Mercury, very effective in improving contrasts, and would really shine in larger aperture telescopes. #23A Light Red – the number 23, light red filter is especially great for Great at enhancing the contrasts of the red planet, and can also help lunar viewing. #25 Red – great for Venus and Mars, the number 25 or red filter is more versatile than 23A especially for Venus viewing. #38A Dark Blue – great for Venus and Jupiter especially in improving the contrasts of the gas giant. #47 Violet – for Moon and Venus, especially for the clouds on Venus and Mars’ polar caps. Also great to view the rings of Saturn. #82A Light Blue – great to enhance the sharpness on Mars viewing | |
| Seeing | |
E (excellent) - The brighter stars are not twinkling at all VG (very good) - The stars are twinkling slightly, but the brighter planets are not twinkling G (good) - The brighter planets are twinkling slightly F (fair) - The brighter planets are obviously twinkling P (poor) - The atmosphere is turbulent. all objects are twinkling to the points where observation is not practical | |
| Transparency | |
1 - If you can't see Polaris. 2 - If you can only see Polaris. 3 - If you can see the two stars on the end of the bowl of the Little Dipper (Kochab and Pherkad). 4 - If you can see any of the stars in the handle of the Little Dipper. 5 - If you can see 6 of the 7 stars in the Little Dipper. 6 - If you can see all 7 stars in the Little Dipper. 7 - If you can see stars near the Little Dipper that are not part of the stick figure. (I envy your young eyes...) |
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