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Venice News Updates

News of Venice, CA and Marina del Rey CA

NASA Retires Kepler Space Telescope, Passes Planet-Hunting Torch

Posted by :reta On : October 31, 2018
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By Bob Eklund

Looking Up Column

After nine years in deep space collecting data that indicate our sky to be filled with billions of hidden planets — more planets even than stars — NASA’s Kepler space telescope (https://www.nasa.gov/kepler) has run out of fuel needed for further science operations.

NASA has decided to retire the spacecraft within its current, safe orbit, away from Earth. Kepler leaves a legacy of more than 2,600 planet discoveries from outside our solar system, many of which could be promising places for life.

Kepler has opened our eyes to the diversity of planets that exist in our galaxy. The most recent analysis of Kepler’s discoveries concludes that 20 to 50 percent of the stars visible in the night sky are likely to have small, possibly rocky, planets similar in size to Earth, and located within the habitable zone of their parent stars. That means they’re located at distances from their parent stars where liquid water — a vital ingredient to life as we know it — might pool on the planet surface.

The most common size of planet Kepler found doesn’t exist in our solar system — a world between the size of Earth and Neptune — and we have much to learn about these planets. Kepler also found nature often produces jam-packed planetary systems, in some cases with so many planets orbiting close to their parent stars that our own inner solar system looks sparse by comparison.

Steep Slopes on Mars Reveal Structure of Buried Ice

Posted by :reta On : January 18, 2018
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A cross-section of underground ice is exposed at the steep slope that appears bright blue in this enhanced-color view from the HiRISE camera on NASA’s Mars Reconnaissance Orbiter. The scene is about 550 yards wide. The scarp drops about 140 yards from the level ground in the upper third of the image. Image Credit: NASA/JPL-Caltech/UA/USGS.

Note: This is based on a press release from NASA/JPL.

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A cross-section of underground ice is exposed at the steep slope that appears bright blue in this enhanced-color view from the HiRISE camera on NASA’s Mars Reconnaissance Orbiter. The scene is about 550 yards wide. The scarp drops about 140 yards from the level ground in the upper third of the image. Image Credit: NASA/JPL-Caltech/UA/USGSResearchers using NASA’s Mars Reconnaissance Orbiter (MRO) have found eight sites where thick deposits of ice beneath Mars’ surface are exposed in faces of eroding slopes.

These eight scarps, with slopes as steep as 55 degrees, reveal new information about the internal layered structure of previously detected underground ice sheets in Mars’ middle latitudes.

The ice was likely deposited as snow long ago. The deposits are exposed in cross section as relatively pure water ice, capped by a layer one to two yards thick of ice-cemented rock and dust. They hold clues about Mars’ climate history. They also may make frozen water more accessible than previously thought to future robotic or human exploration missions.

“There is shallow ground ice under roughly a third of the Martian surface, which records the recent history of Mars,” said the study’s lead author, Colin Dundas of the U.S. Geological Survey’s Astrogeology Science Center in Flagstaff, Arizona. “What we’ve seen here are cross-sections through the ice that give us a 3-D view with more detail than ever before.”

The discovery reported today gives us surprising windows where we can see right into these thick underground sheets of ice,” said Shane Byrne of the University of Arizona Lunar and Planetary Laboratory, Tucson, a co-author on today’s report.

The new study identifies eight sites where ice is directly accessible, at latitudes with less hostile conditions than at Mars’ polar ice caps. “Astronauts could essentially just go there with a bucket and a shovel and get all the water they need,” Byrne said.

Seven Habitable-Zone Planets Found around Single Star

Posted by :reta On : February 26, 2017
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This artist’s concept shows what the TRAPPIST-1 planetary system may look like, based on available data about the planets’ diameters, masses and distances from the host star. Credit: NASA-JPL/Caltech

 

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Note:  This is from a NASA press release.

 

NASA’s Spitzer Space Telescope has revealed the first known system of seven Earth-size planets around a single star. Three of these planets are located in the habitable zone, the area around the parent star where a rocky planet is most likely to have liquid water.

The discovery sets a new record for greatest number of habitable-zone planets found around a single star outside our solar system. All of these seven planets could have liquid water — key to life as we know it — under the right atmospheric conditions.

“This discovery could be a significant piece in the puzzle of finding habitable environments, places that are conducive to life,” said Thomas Zurbuchen, associate administrator of the agency’s Science Mission Directorate in Washington. “Answering the question ‘are we alone’ is a top science priority and finding so many planets like these for the first time in the habitable zone is a remarkable step forward toward that goal.”

At about 40 light-years (235 trillion miles) from Earth, the system of planets is relatively close to us, in the constellation Aquarius.

Using Spitzer data, the team precisely measured the sizes of the seven planets and developed first estimates of the masses of six of them, allowing their density to be estimated.

In contrast to our sun, the TRAPPIST-1 star-classified as an ultra-cool dwarf-is so cool that liquid water could survive on planets orbiting very close to it, closer than is possible on planets in our solar system.

Daily Minor Planet Delivers the Latest Asteroid News

Posted by :reta On : October 11, 2016
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Note: This is a press release from Harvard-Smithsonian Center for Astrophysics, not the Clark Kent Daily Planet.

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Have you ever wondered what piece of cosmic debris is whizzing past the Earth right now? Do you crave up-to-the-minute information about asteroids large and small? Well you’re in luck because today you can subscribe to a new service: the Daily Minor Planet.

Developed through a partnership between scientists at the Minor Planet Center and volunteers from the Oracle Corporation, the Daily Minor Planet will deliver reports on the latest asteroid happenings straight to your inbox.

“Most people don’t realize how common asteroid flybys are,” said Matt Holman, director of the Minor Planet Center and astronomer at the Harvard-Smithsonian Center for Astrophysics (CfA). “We want the Daily Minor Planet to educate readers in an entertaining way, so the next time they see a doom-and-gloom asteroid headline, they’ll know where to go to find the facts.”

The Daily Minor Planet’s name cleverly combines the title of the fictional newspaper home of Superman’s Clark Kent, the Daily Planet, with the historical name of asteroids, or minor planets. In a nod to the real-life newspaper world, it will be available in two HTML formats: classic and modern.

Almost every day, a known asteroid passes within a few million miles of Earth. On those dates, the Daily Minor Planet will list the flyby asteroid along with the time and distance of its closest approach. On days without a cosmic flyby, the report will feature a newly discovered asteroid. It will also highlight an article from the popular press.

To subscribe to the Daily Minor Planet, go to http://minorplanetcenter.net/daily-minor-planet.

“X” Discovered In Center of Milky Way

Posted by :reta On : July 23, 2016
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An enhanced, close-up view centred on the Galaxy’s bulge and the blue-tinted “X.” Credit: D. Lang/Dunlap Institute

An enhanced, close-up view centred on the Galaxy’s bulge and the blue-tinted “X.” Credit: D. Lang/Dunlap Institute

 

Note: This is a press release from Dunlap Institute for Astronomy & Astrophysics, University of Toronto.

Astronomers have uncovered the strongest evidence yet that an enormous X-shaped structure made of stars lies within the central bulge of the Milky Way Galaxy.

Previous computer models, observations of other galaxies, and observations of our own galaxy have suggested that the X-shaped structure existed. But no one had observed it directly; and some astronomers argued that previous research that pointed indirectly to the existence of the X could be explained in other ways.

“There was controversy about whether the X-shaped structure existed,” says Dustin Lang, a Research Associate at the Dunlap Institute for Astronomy & Astrophysics, University of Toronto, and co-author of the paper describing the discovery, published this month in the Astrophysical Journal. “But our paper gives a good view of the core of our own galaxy. I think it has provided pretty good evidence for the existence of the X-shaped structure.”

The Milky Way Galaxy is a barred spiral galaxy: a disk-shaped collection of dust, gas and billions of stars, 100,000 light-years in diameter. It is far from a simple disk structure, being comprised of two spiral arms, a bar-shaped feature that runs through its center, and a central bulge of stars. The X-shaped structure is a part of the bulge.

NASA’s Juno Spacecraft Sends First In-Orbit View

Posted by :reta On : July 14, 2016
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Note: this is a press release from JPL

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This color view from NASA’s Juno spacecraft is made from some of the first images taken by JunoCam after the spacecraft entered orbit around Jupiter on July 5th (UTC). Image credit: NASA/JPL-Caltech/SwRI/MSSS

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Looking Up

The JunoCam camera aboard NASA’s Juno mission is operational and sending down data after the spacecraft’s July 4 arrival at Jupiter. Juno’s visible-light camera was turned on six days after Juno fired its main engine and placed itself into orbit around the largest planetary inhabitant of our solar system. The first high-resolution images of the gas giant Jupiter are still a few weeks away.

“This scene from JunoCam indicates it survived its first pass through Jupiter’s extreme radiation environment without any degradation and is ready to take on Jupiter,” said Scott Bolton, Juno principal investigator from the Southwest Research Institute in San Antonio. “We can’t wait to see the first view of Jupiter’s poles.”

The view was obtained on July 9, when the spacecraft was 2.7 million miles from Jupiter on the outbound leg of its initial 53.5-day capture orbit. The color image shows atmospheric features on Jupiter, including the famous Great Red Spot, and three of the massive planet’s four largest moons—Io, Europa, and Ganymede, from left to right in the image.

1917 Astronomical Plate from Mt. Wilson Observatory Has First-Ever Evidence of an Exoplanetary System

Posted by :reta On : April 14, 2016
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This is a press release from Carnegie Institution for Science.

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The 1917 photographic plate spectrum of van Maanen’s star from the Carnegie Observatories’ archive. The pull-out box shows the strong lines of the element calcium, which are surprisingly easy to see in the century old spectrum. The spectrum is the thin, (mostly) dark line in the center of the image. The broad dark lanes above and below are from lamps used to calibrate wavelength, and are contrast-enhanced in the box to highlight the two “missing” absorption bands in the star. Image courtesy of Carnegie Institution for Science.

You can never predict what treasure might be hiding in your own basement. For example, it turns out that a 1917 image on an astronomical glass plate from the Carnegie Observatories’ collection shows the first-ever evidence of a planetary system beyond our own Sun.

Astronomer Jay Farihi of University College London recently contacted Carnegie Observatories’ Director, John Mulchaey. He was looking for a plate in the Carnegie archive that contained a spectrum of van Maanen’s star, a white dwarf discovered by Dutch-American astronomer Adriaan van Maanen in the very year the Carnegie plate was made.

Stellar spectra are recordings of the light emitted by distant stars. Spectra spread out all of the component colors of light, like a rainbow from a prism, and they can teach astronomers about a star’s chemical composition. They can also tell them how the light emitted by a star is affected by the chemistry of the things it passes through before reaching us on Earth.

As requested, the Observatories located the 1917 plate, made by former Observatories Director Walter Adams at Mount Wilson Observatory’s 60-inch telescope. Other than a notation on the plate’s sleeve indicating that the star looked a bit warmer than our own Sun, everything seemed very ordinary.

However, when Farihi examined the spectrum, he found something quite extraordinary.

The clue was in what’s called an “absorption line” on the spectrum. Absorption lines indicate “missing pieces,” areas where the light coming from a star passed through something and had a particular color of light absorbed by that substance. These lines indicate the chemical makeup of the interfering object.

Carnegie’s 1917 spectrum of van Maanen’s star revealed the presence of heavier elements, such as calcium, magnesium, and iron, which should have long since disappeared into the star’s interior due to their weight.

Only within the last 12 years has it become clear to astronomers that van Maanen’s star and other white dwarfs with heavy elements in their spectra represent a type of planetary system featuring vast rings of rocky planetary remnants that deposit debris into the stellar atmosphere. These recently discovered systems are called “polluted white dwarfs.” They were a surprise to astronomers, because white dwarfs are stars like our own Sun at the end of their lifetimes, so it was not at all expected that they would have leftover planetary material around them at that stage.

“The unexpected realization that this 1917 plate from our archive contains the earliest recorded evidence of a polluted white dwarf system is just incredible,” Mulchaey said. “And the fact that it was made by such a prominent astronomer in our history as Walter Adams enhances the excitement.”

Planets themselves have not yet been detected orbiting van Maanen’s star, nor around similar systems, but Farihi is confident it is only a matter of time.

“The mechanism that creates the rings of planetary debris, and the deposition onto the stellar atmosphere, requires the gravitational influence of full-fledged planets,” he explained. “The process couldn’t occur unless there were planets there.”

“Carnegie has one of the world’s largest collections of astronomical plates with an archive that includes about 250,000 plates from three different observatories—Mount Wilson, Palomar, and Las Campanas,” concluded Mulchaey. “We have a ton of history sitting in our basement and who knows what other finds we might unearth in the future?”

The Mount Wilson 60-inch telescope, where this discovery was made, is now available for public observing. See: http://www.mtwilson.edu/60in.html

Bob Eklund to Host Star Party

Posted by :reta On : March 26, 2016
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Venice Update’s “Looking Up” Columnist Bob Eklund will be hosting his Star Party, 16 April in Westchester parking lot at 7855 Alverston Ave. starting at 7 pm.

Telescopes will be set to look at Jupiter this time; last time it was the moon.

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Planet Found — Number 9

Posted by :reta On : January 25, 2016
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Note: This is a press release from Caltech

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Caltech researchers have found evidence of a giant planet tracing a bizarre, highly elongated orbit in the distant solar system. The object, which the researchers have nicknamed Planet Nine, has a mass about 10 times that of Earth and orbits about 20 times farther from the Sun on average than does Neptune (which orbits the Sun at an average distance of 2.8 billion miles). In fact, it would take this new planet between 10,000 and 20,000 years to make just one full orbit around the Sun.

The researchers, Konstantin Batygin and Mike Brown, discovered the planet’s existence through mathematical modeling and computer simulations but have not yet observed the object directly.

“This would be a real ninth planet,” says Brown, Caltech’s Richard and Barbara Rosenberg Professor of Planetary Astronomy. “There have only been two true planets discovered since ancient times, and this would be a third. It’s a pretty substantial chunk of our solar system that’s still out there to be found, which is pretty exciting.”

Brown notes that the putative ninth planet—at 5,000 times the mass of Pluto—is sufficiently large that there should be no debate about whether it is a true planet. Unlike the class of smaller objects now known as dwarf planets, Planet Nine gravitationally dominates its neighborhood of the solar system. In fact, it dominates a region larger than any of the other known planets — a fact that Brown says makes it “the most planet-y of the planets in the whole solar system.”

Batygin and Brown describe their work in the current issue of the Astronomical Journal and show how Planet Nine helps explain a number of mysterious features of the field of icy objects and debris beyond Neptune known as the Kuiper Belt.

“Although we were initially quite skeptical that this planet could exist, as we continued to investigate its orbit and what it would mean for the outer solar system, we become increasingly convinced that it is out there,” says Batygin, an assistant professor of planetary science. “For the first time in over 150 years, there is solid evidence that the solar system’s planetary census is incomplete.”

The road to the theoretical discovery was not straightforward. In 2014, a former postdoc of Brown’s, Chad Trujillo, and his colleague Scott Shepherd published a paper noting that 13 of the most distant objects in the Kuiper Belt are similar with respect to an obscure orbital feature. To explain that similarity, they suggested the possible presence of a small planet. Brown thought the planet solution was unlikely, but his interest was piqued.

He took the problem down the hall to Batygin, and the two started what became a year-and-a-half-long collaboration to investigate the distant objects. As an observer and a theorist, respectively, the researchers approached the work from very different perspectives—Brown as someone who looks at the sky and tries to anchor everything in the context of what can be seen, and Batygin as someone who puts himself within the context of dynamics, considering how things might work from a physics standpoint. Those differences allowed the researchers to challenge each other’s ideas and to consider new possibilities.

“I would bring in some of these observational aspects; he would come back with arguments from theory, and we would push each other. I don’t think the discovery would have happened without that back-and-forth,” says Brown. “It was perhaps the most fun year of working on a problem in the solar system that I’ve ever had.”

Meanwhile, in a galaxy not so far, far away…

Posted by :reta On : January 11, 2016
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Note: This is a press release from NASA/JPL.

Kepler

The fantasy creations of the “Star Wars” universe are strikingly similar to real planets in our own Milky Way galaxy. A super-Earth in deep freeze? Think ice-planet Hoth. And that distant world with double sunsets can’t help but summon thoughts of sandy Tatooine.

The most recently revealed exoplanet possessing Earth-like properties, Kepler-452b, might make a good stand-in for Coruscant—the high-tech world, seen in several Star Wars films, whose surface is encased in a globe-spanning city. Kepler-452b belongs to a star system 1.5 billion years older than Earth’s. That would give an advanced civilization more than a billion-year jump on us. The denizens of Coruscant not only have an entirely engineered planetary surface, but an engineered climate as well. On Kepler-452b, conditions are growing warmer as its star’s energy output increases—a symptom of advanced age. If this planet (which is 1.6 times the size of Earth) is truly Earth-like, some climate engineering might be needed there as well.

The planet Mustafar, scene of an epic duel between Obi-Wan Kenobi and Anakin Skywalker in “Revenge of the Sith,” has a number of exoplanet counterparts. These molten, lava-covered worlds, such as Kepler-10b and Kepler-78b, are rocky planets in Earth’s size range whose surfaces could well be perpetual infernos.

The planet OGLE-2005-BLG-390, nicknamed “Hoth,” is a cold super-Earth, with a mass five times that of Earth and a surface temperature estimated at minus 364 degrees Fahrenheit. That most likely means no Hoth-style tauntauns to ride, or even formidably fanged abominable snowmen (aka wampas). Astronomers used an extraordinary planet-finding technique known as microlensing to find this world in 2005—one of the early demonstrations of this technique’s ability to reveal exoplanets. In microlensing, backlight from a distant star is used to reveal planets around a star closer to us

Luke Skywalker’s home planet, Tatooine, is said to possess a harsh, desert environment, swept by sandstorms as it roasts under the glare of twin suns. Real exoplanets in the thrall of two or more suns likely have even harsher environments. Kepler-16b was the Kepler telescope’s first discovery of a planet in a “circumbinary” orbit—circling both stars, as opposed to just one, in a double-star system. This planet, however, is likely cold, about the size of Saturn, and gaseous, though partly composed of rock. It lies outside its two stars’ “habitable zone,” where liquid water could exist, and its stars are cooler than our sun—all of which probably adds up to a lifeless Tatooine.

Endor, the forested realm of the Ewoks introduced in “Return of the Jedi.” is a moon orbiting a gas giant. Detection of exomoons—moons circling distant planets—is still in its infancy for scientists here on Earth. A possible exomoon was observed in 2014 via microlensing. It will remain forever unconfirmed, however, since each microlensing event can be seen only once. If the exomoon is real, it orbits a rogue planet, unattached to a star and wandering freely through space. The planet might have hung on to its moon after somehow being ejected during the early history of a forgotten planetary system.

The hunt for exomoons could actually have powerful implications in the search for life beyond Earth. If exomoons are shown to be potentially habitable, this would open another avenue for biology; habitable moons might even outnumber habitable planets. Could they have bustling ecosystems, with life forms even more exotic than Endor’s living teddy bears, swinging between trees Tarzan-style? Stay tuned.