By a fluke of weather, Ohio experienced clear (but a bit hazy) skies for the eclipse. This allowed millions of folks to enjoy the extraordinary view on Monday, April 8.
JGAP hired a bus, which took 46 observers to a location selected for its likelihood of clear skies. We ended up in the tiny hamlet of Elsinore, Missouri in a wonderful setting and experienced 4 minutes and 9 seconds of glorious totality!
This was the most beautiful eclipse of the four that I have seen (although that may be recency bias talking.) The rich orange “all around” sunset, the brilliant pinpricks of Jupiter and Venus, and that stunning “messy hair” corona.
One question I’m getting a lot is:
What was that pink spike of light on the bottom of the sun?
That was a solar prominence, commonly called a “solar flare”. It was a giant tongue of mostly hydrogen plasma (atoms stripped of their electrons) being drawn up from the surface of the sun by its intense magnetic fields.
Its Barbie Pink glow is due to the fact that hydrogen gas emits light in three, very specific, frequencies: a deep blue, a kind of aqua-blue, and a deep red. Combine these three colors and you get Barbie Pink, one of the most common colors in the universe!
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Written in January 2018
One of the most common questions I get when I tell people about the gigantic telescope (it has a 28-inch mirror!) that will be housed as the JGAP observatory is:
"What will we be able to see?"
First and foremost, at this time next year we will be pointing our big scope (and many of the smaller ones, too) at one of the most spectacular objects in the heavens: The Great Orion Nebula (a.k.a "M42").
M42 is the illuminated portion of a an incomprehensibly vast cloud of gas and dust that fills much of the constellation of Orion. At its heart is a small, newborn, cluster of bright stars carving out, and illuminating, a flower-shaped notch.
Though it is over 1500 light-years away, it is visible to the naked eye as the fuzzy middle "star" in the sword of Orion.
The human eye does not easily detect the spectacular splash of color that is seen in photographs, but the blossom-shaped glow that is seen in telescopes is nonetheless ghostly and astonishing and unlike anything you've ever seen on Earth.
This illustration shows _approximately_ what it will look like.
The real thing is better.
M42 can be seen in the winter!
The great planet Jupiter reaches opposition- that time when the planet is most directly opposite the sun in the sky- on May 9, giving observers their best chance of the year to observe the features on this giant planet. The bands on Jupiter move in different directions around the body of Jupiter. The lighter bands move in the direction of Jupiter’s rotation, circling the planet faster than the world as a whole. The dark colored bands move opposite the motion, taking longer to make a complete circuit. An patient observer with exceptional optics and seeing, would see features in the dark bands fall sluggishly behind those in the light bands as the planet turns on its axis.
Data from NASA’s JUNO spacecraft has, in recent months, given new insights into Jupiter’s makeup, weather, and the motion of these bands. By measuring the slight changes in acceleration of the JUNO satellite as it swoops a few thousand km from the Jovian cloudtops, astronomers have determined that the motion of the cloudbands we see go far deeper into the body of the planet that had been previously thought- the swirling motion goes as far as 3000km into the body of Jupiter. Imagine a mass of air as deep as the continental USA is tall.
Deeper down, the mass of Jupiter moves as if it were one solid body, much like the interior of the Earth. It is, however, anything but. It is a great sea of hydrogen and helium so compressed that the electrons in these elements are squeezed off their nuclei- turning the body of the world into a sphere of liquid metal.