I've been having this fantasy lately about modifying one of those wells cargo trailers for use as a mobile observatory. It seems like a really appealing idea that could solve a lot of problems I have. I live in the suburbs and I'm fighting trees and light pollution, so I'm not really inclined to build a permanent observatory. Actually, the best location I have at home is my front driveway. No trees and only a couple of porch lights.
I've looked into commercial mobile trailers specifically designed to be astronomical observatories, but the prices are exactly that. Astronomical. I'm sure there are good reasons why I should drop this idea, and I'd like to invite you to talk me out of it.
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I have had experience with four or five of these things. Only one of them was at all usable for real solid astronomy--and that one was dubious. All the rest had vibration problems. That is, it was impossible to use them without setting up vibrations that interfered with the viewing. Imaging would have been impossible.
Read through this forum and see the comments about people suggesting astronomy from the top of buildings. Now imagine how much more vibration you would get from a building that is not attached to the ground.
I have light pollution and a lot of trees in my back yard, and I'd rather not build a permanent observatory for it which is one of the things making me think about a modified trailer. The front of my house has unobstructed views of the North, East and most of the South. Only the West and Southwest are obstructed by my house. The west is the "weather side" of the house, so the trailer would be somewhat protected from the wind. I have the zenith available, too. I imagine that if I just park my trailer in my driveway and run power and network to it, I could do EAA all night long from the comfort of my study.
Developed in the UK in collaboration with the European Space Agency (ESA), the concept vehicle functions as a mobile astronomy lab, featuring a world-leading, observatory-class telescope on a bespoke off-road trailer. As the latest embodiment of Nissan Intelligent Mobility, the vehicle comes with ProPILOT driver assistance technology, which has been upgraded to make it the most capable pickup for safe and convenient towing.
Today, it develops and launches satellites for Earth observation, navigation, telecommunications and astronomy, sends probes to the far reaches of the Solar System and cooperates in the human exploration of space. ESA also has a strong applications programme developing services in Earth observation, navigation and telecommunications.
To reduce the effort, backyard astronomers often resort to building an observatory, where your telescope is always set up. You pop open the roof, and voila! You're ready to observe. But an observatory can be as large of an investment as your telescope, and not every property is suited for an observatory.
My current house falls into this second category -- we live in the woods, and our "backyard" is the fringe wildlands against a wetland preserve that floods with heavy rains. There is no ideal open place to observe or place an observatory except one: the driveway.
My solution was to build a mobile observatory that rolls out of my garage! This Instructable details the rebuilding of my daughter's long abandoned loft bed from when she was in lower elementary into a new mobile "hidden observatory" in the middle bay of my garage. I call it Hidden Grove Observatory.
At this point in my astronomy life, I've lived in many different houses, and have built two previous observatories shown in the images above (you can see Star Gully Observatory right here on Instructables!). Each construction effort has taught me what the essentials for an observatory are for me to use it; most astronomers have a unique set of criteria that help enhance how they like to observe.
The premise of the Hidden Grove Observatory is that I can have everything setup in the garage, and just wheel it out onto the driveway. It's always inside and protected from the weather, and it shouldn't take any longer to push the telescope out into the open than it would normally take me to open up a dedicated observatory.
The original loft bed was supported by a pair of islands, one at each end. One island had a built in desk with some organizational drawers. The other island had some large shelves, and some drawers to use as a dresser. I decided if you put them back to back, and if you could move them, they'd make a perfect portable observatory island.
I wanted the new observatory island to be a monolithic piece, so no matter where I grabbed it to push or pull the bed pieces would not hop off the platform. First, I secured the feet of each bed piece to the trolley using different angle brackets I had in my widget bucket, at every corner of the two islands.
One advantage of permanent observatories is they can have power on demand. I added power to the observatory island by attaching a power strip inside the desk cubby, threading the tail of the strip out the back of the island to plug into an extension cord that runs to the house.
I have a commercial version of the Denver Chair, but it is always kicking around leaning against a wall somewhere, so I wanted a permanent home for it on the observatory island. So I fashioned a hook for it out of a broken umbrella handle (trash to treasure!) and a 2x4 scrap.
On the backside of the observatory island are the large shelves that were once part of the loft bed. I have my eyepieces on one, a flip-top tote with extra sweatshirts, hats and gloves, and a tough action packer tote on the bottom with my star atlases; the Denver Chair hangs next to the shelves.
This has been an almost perfect upcycling of the old bed pieces, and a great solution for my limited observing site. I hope it inspires you to look at your own astronomy space creatively, and to imagine ways you might be able to develop your own custom observatory space. Let me know in the comments if you have any creative ideas or solutions.
It would fit beautifully into a lesson plan on astronomy or space exploration, but kids will need a bit of guidance first. Since Sky View can be used in daytime mode, kids can even see the stars in broad daylight. The graphs and charts offer kids a wealth of information about planets, the moon, and upcoming events, and these could also serve as teaching models for conveying information graphically.
Putting Mobile Observatory into kids' hands is like giving them full access to an observatory and planetarium along with a docent to guide them on their self-paced tour. The amount of information is mind-boggling, and the options for viewing and learning about the night sky are impressive.
I feel that this app would work better in a high school setting, in conjunction with a unit on astronomy. It allows for authentic research and individual-paced student learning.
There were a couple of loading glitches when used, so make sure to have a strong WiFi signal when you use.
Highly recommend teachers to use this app prior to lesson so that you get a feel for the movement and section categories.
According to the report, in the first two years of this project all the areas above demonstrated tremendous progress in regards to research. Current efforts continue to focus the project primarily on astronomy, materials engineering, and solar energy.
In terms of agricultural and ecological research, the project is just beginning to make progress. In fact, an intriguing future project is taking shape. Not far from the observatory site and solar ranch, the first trees of a citrus orchard have been planted. The observatory site is a bit north of the main citrus growing region of Texas. Being on a hill out of areas of cold sinking air help, but this area is subject to serious killing frosts about one year in four. To combat this problem, the students and educators plan to develop what they are calling a microwave defroster. This system could be used to prevent frost damage on citrus but would be even more useful on more sensitive winter vegetables such as lettuce. They plan to initiate a pilot project for this device no later than the winter of 2018.
A solution could be to build an observatory, solving all the setup hassle. But do you have the space in your backyard? What about light pollution? You could set up an observatory somewhere out of town, but that might be even more complicated.
Most German Equatorial Mounts demand that you first use time and energy on levelling the pier, then making a polar alignment. This process will take some time out of your schedule and is certainly relevant to consider if you plan to use the observatory for short observation trips.
The trailer and pier were manufactured by Pier-Tech in the U.S. in Bartlett, Illinois. This is a suburb of Chicago, about 40 miles northwest of downtown. The Pier-Tech pier raises and lowers while maintaining alignment allowing for easy access to the eyepiece. We also use a bigger version of this pier in our (Calumet Astronomical Society) main observatory. It allows people of different heights to reach the eyepiece comfortably including folks in wheelchairs and children.
I added solar panels to maintain the charge in the batteries along with a chair, toolbox, retractable shelves, acacia floor tiles, analog clocks (they look cool and I feel you have to have clocks in an observatory!), solar cell controllers, and red/white LED lighting. I added a spare tire, the Panther mount , and I use several different scopes. I use a Celestron 120mm refractor with a Daystar H-a filter, which I also use on the C-11, a C-9.25 as well as a Meade 60mm Solarmax. ff782bc1db
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