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Clear skies. Areas of smoke and haze are possible, reducing visibility at times. Low 79F. Winds light and variable..

Clear skies. Areas of smoke and haze are possible, reducing visibility at times. Low 79F. Winds light and variable.

Mars is now getting better positioned for evening observations of its enlarging disk as Earth catches up to it for a close encounter in October. As we get closer, more detail is visible in our telescopes.

The red planet becomes visible at around 9:30 p.m. on the eastern edge of the dim constellation Pisces. Almost straight above Mars and Pisces will be the Great Square of Pegasus. To the left of Pegasus is Andromeda with the closest large galaxy to us, the Andromeda Galaxy (aka M31), just above the middle stars of Andromeda.

Astronomers using the ultraviolet-observing capabilities of the Hubble Space Telescope have found that the Andromeda Galaxy has a huge halo of hot, rarified plasma consisting of two nested shells of gas. The halo of gas is made of outflows from supernovae as well as inflowing gas that will later be made into stars and planets.

The extent of the halo is enormous. If we could see it in the visible band with our eyes, it would be about three times the width of the Big Dipper in our night sky. Our home galaxy, the Milky Way also has a huge halo of rarified plasma that is probably the same size, so our two plasma halos are already bumping into each other.

Now the plasma halo does not glow in the ultraviolet. Astronomers used the ultraviolet spectrometer on Hubble to look at ultraviolet light from super-distant active galaxies, called quasars, passing through the plasma halo. As the light passes, some of it gets absorbed by the plasma halo. With enough quasars (43 in this study) positioned on the sky around the Andromeda Galaxy, the astronomers were able to see how the absorption changes in different regions around that galaxy. These observations have to be done in space because our atmosphere absorbs the ultraviolet light. That’s a good thing by the way. If all of the ultraviolet light from space reached the ground, life on the surface would be impossible.

A waning gibbous moon is to the left of Mars tonight. By the time Mars is high enough to see easily in the east, Jupiter and Saturn in Sagittarius will be in the south-southwest.

When the smoke was thick in our sky, only Jupiter was bright enough to pierce through but on the last couple of night walks around the perimeter of our neighborhood, we’ve been able to see the three stars of the Summer Triangle: Vega high overhead in Lyra, Deneb at the tail of Cygnus, and Altair at the neck of Aquila. We can also make out most of the other stars of Cygnus, including the ones that make up the Northern Cross, and several of Aquila’s other stars.

The origins of Earth’s water has been the focus of recent news. It has been long thought that because Earth formed so close to the sun that all of the water in the surrounding nebula would have remained as vapor and never could have condensed to eventually form our oceans and rivers. Therefore, the water would have had to come from comets and/or asteroids that formed farther from the sun and were drawn in later to the inner solar system by the sun’s gravity.

To check that out, astronomers have used ratios of isotopes of elements such as hydrogen, oxygen, calcium and some metals to see if the water and rocky compositions of the asteroids and comets match what we have here on Earth. Sometimes but not well enough to explain all the water we do have. An example of an isotope signature is looking at how much “heavy water” a comet or asteroid has compared to regular water. Heavy water has the same chemistry as regular water but one or both of the hydrogen atoms in the H2O molecule have an extra neutron in their nucleus. That makes the nucleus of the hydrogen atom more massive —“heavier,” so water with the extra neutron(s) is “heavy water.”

Most comets we’ve taken spectra of have a ratio of heavy water to regular water that is about twice the ratio we have on Earth. Some of the chips of asteroids that fall to Earth — meteorites — have water ratios that are close to Earth’s ratio but isotope ratios for other elements are off. Isotope ratios are such a powerful chemical tool to tell where something comes from.

A team led by Laurette Piani found that a group of meteorites called enstatite chondrites, which fits all the isotopic signatures of Earth and the moon, have a high enough percentage of water composition, especially the oldest most pristine ones of the set, to conclude that Earth’s water formed with the rest of the Earth. That matches earlier research a decade ago by Linda Elkins-Tanton showing that the water in the forming inner planets would not have all dissipated away.

Contributing columnist Nick Strobel is director of the William M. Thomas Planetarium at Bakersfield College and author of the award-winning website AstronomyNotes.com.

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Source: https://www.bakersfield.com/entertainment/nick-strobel-eye-on-giant-halo-around-andromeda-galaxy/article_2e3555f8-ebb2-11ea-ada2-a3606511a007.html

World news – CA – NICK STROBEL: Eye on giant halo around Andromeda Galaxy

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