web analytics

Rss

Venice News Updates

News of Venice, CA and Marina del Rey CA

NASA to Broadcast Eclipse Across US from Ground, Aircraft, Spacecraft

Posted by :reta On : August 16, 2017
0

Category: Bob Eklund Column

Tags:, , ,

Bob Eklund1.5

Bob Eklund of Looking Up Column

 

All of North America will be treated to an eclipse of the Sun Monday, 21 August, and NASA Television will carry it live from coast to coast from unique vantage points on the ground and from aircraft and spacecraft, including the International Space Station. Coverage will be featured during the live four-hour broadcast Eclipse Across America: Through the Eyes of NASA.

Programming begins at 9 am (noon EDT) with a preview show hosted from Charleston, South Carolina. The main show begins at 10 am and will cover the path of totality the eclipse will take across the United States, from Oregon to South Carolina.

The program will feature views from NASA research aircraft, high-altitude balloons, satellites and specially-modified telescopes. It also will include live reports from Charleston, as well as from Salem, Oregon; Idaho Falls, Idaho; Beatrice, Nebraska; Jefferson City, Missouri; Southern Illinois University at Carbondale, Illinois; Hopkinsville, Kentucky; and Clarksville, Tennessee.

Catch NASA’s live coverage using any of the following:

NASA App
* NASA App for iOS, http://itunes.apple.com/app/nasa-app/id334325516?mt=8
* NASA App for Android, https://play.google.com/store/apps/details?id=gov.nasa
* NASA App for Amazon Fire and Fire TV, http://amzn.com/B00ZVR87LQ
* The NASA App also is available to Apple TV users.

Social Media
* Facebook Live, https://www.facebook.com/nasa
* Twitter/Periscope, https://www.pscp.tv/nasa
* Twitch TV, https://twitch.tv/nasa
* UStream, http://www.ustream.tv/nasahdtv
* YouTube, https://www.youtube.com/watch?v=wwMDvPCGeE0

More details and a broadcast timeline:
https://www.nasa.gov/nasatv

In addition to the NASA TV broadcast, live video streams from locations across the country will be available at:
https://www.nasa.gov/eclipselive

To view and download NASA eclipse images:
5th Annual Hidden Figures Street Naming Anniversary (NHQ202409190035)

Daily Minor Planet Delivers the Latest Asteroid News

Posted by :reta On : October 11, 2016
0

Category: Bob Eklund Column

Tags:,

Note: This is a press release from Harvard-Smithsonian Center for Astrophysics, not the Clark Kent Daily Planet.

Bob Eklund Looking Up

Bob Eklund
Looking Up

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.

Kepler Watches Stellar Dancers in the Pleiades Cluster

Posted by :reta On : September 4, 2016
1

Category: Bob Eklund Column

Tags:, , ,

pleiades-in-pj copy
This image shows the Pleiades cluster of stars as seen through the eyes of WISE, or NASA’s Wide-field Infrared Survey Explorer. NASA/JPL-Caltech/UCLA

Bob Eklund Looking Up

Bob Eklund
Looking Up


Like cosmic ballet dancers, the stars of the Pleiades cluster are spinning. But these celestial dancers are all twirling at different speeds. Astronomers have long wondered what determines the rotation rates of these stars.

By watching these stellar dancers, NASA’s Kepler space telescope has helped amass the most complete catalog of rotation periods for stars in a cluster. This information can help astronomers gain insight into where and how planets form around these stars, and how such stars evolve.

The Pleiades is one of the closest and most easily seen star clusters, residing just 445 light-years away from Earth, on average. At about 125 million years old, these stars—known individually as Pleiads—have reached stellar “young adulthood.

During the Kepler observations of the Pleiades, a clear pattern emerged: More massive stars rotate slowly, while less massive stars rotate rapidly.

FUN FACT. The Japanese word for Pleiades is “Subaru.” Sound familiar? That six-star emblem on all Subaru cars is none other than a stylized version of the Pleiades cluster, as seen with the naked eye, binoculars, or a low-power telescope.

Mars at Closest Approach to Earth in Last Ten Years

Posted by :reta On : May 25, 2016
0

Category: Bob Eklund Column, Looking Up Column

Tags:, , , , , ,

Note: This is a press release from Hubble/European Space Agency and Sloohmars
NASA/ESA Hubble Space Telescope picture of Mars.

Looking Up Column By Bob Eklund

Looking Up Column
By Bob Eklund


During this month, the Earth and Mars get closer to each other than at any time in the last ten years. The NASA/ESA Hubble Space Telescope has exploited this special configuration to catch a new image of our red neighbor.

On May 22, Mars will be at opposition, the point at which the planet is located directly opposite the Sun in the sky. This means that the Sun, Earth and Mars are all lined up, with Earth sitting in between the Sun and the red planet. This is also the planet’s closest approach to Earth.

WATCH MARS LIVE ONLINE ON MEMORIAL DAY. On Monday, May 30th, at 6:00 p.m. PDT, the international astronomy-outreach organization Slooh will share brilliant live views of Mars at closest approach with the public, looking through a telescope at the Canary Island Observatory. During the live show, Slooh Astronomers Paul Cox and Bob Berman will be on hand to take viewers on a tour of the Red Planet, discussing everything from scientific study of the planet to its cultural significance in antiquity through to sci-fi movies, and even the possibility that it may have once harbored life.

Viewers are encouraged to make themselves a part of the show by sending their questions to @Slooh on Twitter, or by joining in on the live chat on Slooh.com.

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

Posted by :reta On : April 14, 2016
0

Category: Bob Eklund Column, Looking Up Column

Tags:,

Looking Up_edited-1

This is a press release from Carnegie Institution for Science.

carnegie
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
0

Category: Bob Eklund Column

Tags:, ,

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.

star party

Bob of “Looking Up” Column Checks Out “Venice Moon”

Posted by :reta On : December 18, 2015
0

Category: Bob Eklund Column, Looking Up Column

Tags:, ,

photo, Laura and Bob Eklund Laura and Bob Eklund.

Venice Update’s own Bob Eklund of Bob Eklund’s “Looking Up” column peeped at the “Venice moon” at the Venice library last Thursday.

The Venice Library hosted the Star Party, which is a group of astronomers who share their telescopes and knowledge to all those interested. These star gazers set up their telescopes wherever there is a “desire.”

Eklund learned of the Star Party via the Update and revealed that it was his son, Dana who, as a Young Adult Librarian at the LAPL Sylmar Library, started the library “Star Parties.”

“I went, and it was lovely (and cold). I got lost in Venice trying to find the library, would you believe — and after having hosted a star party there myself, not too many years ago. How we forget! I turned onto Abbott Kinney Blvd. (a fascinating shopping district) by mistake, but a helpful Venician pointed me back.

“It was a small party — one lovely telescope pointed at the moon and a small trickle of people, stopping to look as they went into the library. But lo and behold, the astronomer who had brought the telescope was Bob Alborzian, a good friend of mine. He had just given a star party the night before for my son Dana at the LAPL Sylmar branch library.

“Bob is the salt of the earth — a most kind, unselfish person who spends much of his life out on the sidewalks sharing the sky with the people. There must be a special place in heaven for his kind.

“I think the best part of the evening was talking with a half-dozen or so very interesting denizens of Venice, among those who stopped at the telescope to look up. Venice is definitely a special and very creative place (and hard to drive in at night if you’re not familiar with it)!”

According to Bob, he and his son started gazing when Dana was 13. “I bought a used telescope, which we both used, and we both joined an astronomy club that meets at Griffith. Within a year or two, he became much more skilled than I. Incidentally, I later met my present wife Laura through that club!

“Kind of carrying on a tradition, I guess. My grandfather worked for an observatory in Wisconsin, my uncle was an astronomer, and my mom used to get me out of bed at 2 am to watch the Perseid meteor shower when I was 6 years old.

“So far my granddaughter (age 12) hasn’t caught the astro-bug yet, but at least she (along with her mom) is a Star Wars fan.”

Ceres’ Bright Spots Similar to Epsom Salt

Posted by :reta On : December 14, 2015
3

Category: Bob Eklund Column

Tags:, ,

Looking Up500_000001

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

PIA20180-16-640x350
This representation of Ceres’ Occator Crater in false colors shows differences in the surface composition. Image Credit: NASA/JPL-Caltech/UCLA/MPS/DLR/IDA

Dwarf planet Ceres reveals some of its well-kept secrets in a study published in the journal Nature, thanks to new data from NASA’s Dawn spacecraft. They include highly anticipated insights about mysterious bright features found all over the dwarf planet’s surface and especially in the crater Occator.

Ceres has more than 130 bright areas, and most of them are associated with impact craters. Study authors, led by Andreas Nathues at Max Planck Institute for Solar System Research, Göttingen, Germany, write that the bright material is consistent with a type of magnesium sulfate called hexahydrite. A different type of magnesium sulfate is familiar on Earth as Epsom salt.

Nathues and colleagues, using images from Dawn’s framing camera, suggest that these salt-rich areas were left behind when water-ice sublimated in the past. Impacts from asteroids would have unearthed the mixture of ice and salt.

“The global nature of Ceres’ bright spots suggests that this world has a subsurface layer that contains briny water-ice,” Nathues said.

The surface of Ceres, whose average diameter is 584 miles, is generally dark—similar in brightness to fresh asphalt. The bright patches that pepper the surface represent a large range of brightness, with the brightest areas reflecting about 50 percent of sunlight shining on the area. But there has not been unambiguous detection of water ice on Ceres; higher-resolution data are needed to settle this question.

The inner portion of the crater called Occator contains the brightest material on Ceres. Occator itself is 60 miles in diameter, and its central pit, covered by this bright material, measures about 6 miles wide and 0.3 mile deep. Dark streaks, possibly fractures, traverse the pit. Remnants of a central peak, which was up to 0.3 mile high, can also be seen.

With its sharp rim and walls, and abundant terraces and landslide deposits, Occator appears to be among the youngest features on Ceres. Dawn mission scientists estimate its age to be about 78 million years old.

Study authors write that some views of Occator appear to show a diffuse haze near the surface that fills the floor of the crater. This may be associated with the observations of water vapor at Ceres that were reported by the Herschel space observatory in 2014. The haze seems to be present in views taken at noon local time and absent at dawn and dusk. This suggests that the phenomenon resembles the activity at the surface of a comet, with water vapor lifting tiny particles of dust and residual ice. Future data and analysis may test this hypothesis and reveal clues about the process causing this activity.

Daytime surface temperatures on Ceres span from minus 136 degrees to minus 28 degrees Fahrenheit. The maximum temperatures were measured in the equatorial region. The temperatures at and near the equator are generally too high to support ice at the surface for a long time, but data from Dawn’s next orbit will reveal more details.

As of this week, Dawn has reached its final orbital altitude at Ceres, about 240 miles from the surface of the dwarf planet. In mid-December, Dawn will begin taking observations from this orbit—including images at a resolution of 120 feet per pixel; infrared, gamma ray and neutron spectra; and high-resolution gravity data.

Could Life Exist on Other Planets?

Posted by :reta On : December 4, 2015
0

Category: Looking Up Column

Tags:, , ,

Looking Up500_000001

Note This news release is from the University of Nevada, Las Vegas.

KeplerSinglePanelStill-sm-br
Artist rendition of the Kepler-9 planetary system, showing the two Saturn-mass planets b and c. (Image courtesy of NASA)

Perhaps with a Little Help from Planetary Neighbors
Life on other planets? A recent study by University of Nevada Las Vegas astrophysicist Jason Steffen is shedding new light on this persistently challenging question.

In our galaxy, there may be billions of planetary systems where more than one planet is habitable. NASA’s Kepler spacecraft has found planet pairs on very similar orbits—with orbital distances differing by as little as 10 percent. If such a planet pairing occurred in the right place, then both planets could sustain life—and even help each other along.

Steffen and research partner Gongjie Li from the Harvard Smithsonian Center for Astrophysics studied some of the ramifications for life in these multihabitable systems.

“It’s pretty intriguing to imagine a system where you have two Earth-like planets orbiting right next to each other,” said Steffen. “If some of these systems we’ve seen with Kepler were scaled up to the size of the Earth’s orbit, then the two planets would only be one-tenth of one astronomical unit apart at their closest approach. That’s only 40 times the distance to the Moon.”

With planets so close together, a number of interesting processes become important. For one, the seasons on the Earth, and the Earth’s climate in general, depend upon its “obliquity,” or the 23.5-degree tilt of the Earth’s axis relative to its orbit. A change of only a few degrees could cause a permanent ice age. If two planets on neighboring orbits caused large changes in each other’s obliquities, then their climates would not be stable.

“We found that the obliquities of the planets in multihabitable systems were not really affected by their close orbits,” said Li. “Only in rare instances would their climates be altered in dramatic ways. Otherwise, their behavior was similar to the planets in the solar system.”

Another process that the scientists investigated was lithopanspermia—the means by which life-bearing material on one planet can be ejected by meteor impacts and delivered to the surface of another planet. For example, on the Earth more than 100 meteorites of Martian origin have been found. Steffen and Li identified a number of facts that would facilitate the proliferation of life between two planets in a multihabitable system.

First, the energy of the impact needed to get material from one planet to another in a multihabitable system is much less than it is in the solar system, so microorganisms are more likely to survive the impact itself. Second, the time needed to traverse the interplanetary distance is much smaller. And third, the way that the impact debris travel through space (flowing in streams) implies that it is more likely that material from a single impact could hit the destination planet at multiple locations in relatively rapid succession. This scenario would increase the chances of life gaining a foothold.

“Multihabitable systems could have a microbial family tree with roots and branches simultaneously on two different planets,” Steffen noted. “Systems like those that we investigated, and moon systems orbiting a habitable-zone giant planet, are among the few scenarios where life—intelligent life in particular—could exist in two places at the same time and in the same system.”

Despite the challenges that life may have in developing on a planet, it appears that the presence of a nearby companion in the struggle may help. “At least the climate isn’t likely to be any worse in multihabitable systems, and the possibility of two planets sharing the biological burden could help the system traverse the inevitable rough times,” Steffen said.

NASA’s Curiosity Mars Rover Heads Toward Active Dunes

Posted by :reta On : November 18, 2015
0

Category: Bob Eklund Column, Looking Up Column

Tags:, , ,

Looking Up500_000001

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

This Sept. 25, 2015, view from the Mast Camera on NASA's Curiosity Mars rover shows a dark sand dune in the middle distance. Credit: NASA/JPL-Caltech/MSSS

This Sept. 25, 2015, view from the Mast Camera on NASA’s Curiosity Mars rover shows a dark sand dune in the middle distance. Credit: NASA/JPL-Caltech/MSSS

On its way to higher layers of the mountain where it is investigating how Mars’ environment changed billions of years ago, NASA’s Curiosity Mars rover will take advantage of a chance to study some modern Martian activity at mobile sand dunes.

In the next few days, the rover will get its first close-up look at these dark dunes, called the “Bagnold Dunes,” which skirt the northwestern flank of Mount Sharp. No Mars rover has previously visited a sand dune, as opposed to smaller sand ripples or drifts. One dune Curiosity will investigate is as tall as a two-story building and as broad as a football field. The Bagnold Dunes are active: Images from orbit indicate some of them are migrating as much as about 3 feet per Earth year. No active dunes have been visited anywhere in the solar system besides Earth.

“We’ve planned investigations that will not only tell us about modern dune activity on Mars but will also help us interpret the composition of sandstone layers made from dunes that turned into rock long ago,” said Bethany Ehlmann ofCaltech and JPL..

As of Nov. 16, Curiosity has about 200 yards remaining to drive before reaching “Dune 1.” The rover is already monitoring the area’s wind direction and speed each day and taking progressively closer images, as part of the dune research campaign. At the dune, it will use its scoop to collect samples for the rover’s internal laboratory instruments, and it will use a wheel to scuff into the dune for comparison of the surface to the interior.

What distinguishes actual dunes from windblown ripples of sand or dust, like those found at several sites visited previously by Mars rovers, is that dunes form a downwind face steep enough for sand to slide down. The effect of wind on motion of individual particles in dunes has been studied extensively on Earth, a field pioneered by British military engineer Ralph Bagnold (1896-1990). Curiosity’s campaign at the Martian dune field informally named for him will be the first in-place study of dune activity on a planet with lower gravity and less atmosphere.

Observations of the Bagnold Dunes with the Compact Reconnaissance Imaging Spectrometer on NASA’s Mars Reconnaissance Orbiter indicate that mineral composition is not evenly distributed in the dunes. The same orbiter’s High Resolution Imaging Science Experiment has documented movement of Bagnold Dunes.

“We will use Curiosity to learn whether the wind is actually sorting the minerals in the dunes by how the wind transports particles of different grain size,” Ehlmann said.

Ehlmann and Nathan Bridges of the Johns Hopkins University’s Applied Physics Laboratory, Laurel, Maryland, lead the Curiosity team’s planning for the dune campaign.

“These dunes have a different texture from dunes on Earth,” Bridges said. “The ripples on them are much larger than ripples on top of dunes on Earth, and we don’t know why. We have models based on the lower air pressure. It takes a higher wind speed to get a particle moving. But now we’ll have the first opportunity to make detailed observations.”

THE KELSO DUNES in California’s Mojave Desert are a good example of somewhat similar dunes on Earth. These dunes, covering 45 square miles near the town of Baker, are called “booming” or “singing” dunes because of the low-pitched resonant noise they produce—especially when someone slides down their steep face. Do the Bagnold Dunes on Mars also boom, when slid down? That’s something for an expedition of human “Martians” to check out, some day.