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Did you see a car similar to this one driving dangerously in the areas of/around…

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Did you see a car similar to this one driving dangerously in the areas of/around Warrane/Bellerive/Mornington yesterday around 1.40pm?

Police are seeking sightings of a red 2000 Mitsubishi Lancer sedan, Rego ER7531, driving dangerously in areas including Cambridge Road, and Bligh, Clarence and Wentworth Streets.

The boot of the car was partially opened, and at times there was smoke coming from the area of the motor.

If you saw the car around the time and/or have dash cam footage, please phone Bellerive Police on 131 444 – quote reference number ESCAD 118-30062020.




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How little satellites are radically remaking place exploration – Aviation Analysis Wing

Enlarge / An Electron rocket launches in August 2019 from New Zealand.Sam Toms/Rocket Lab At the starting of this year, a group of NASA scientists

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Enlarge / An Electron rocket launches in August 2019 from New Zealand.
Sam Toms/Rocket Lab
At the starting of this year, a group of NASA scientists agonized about which robotic missions they need to select to explore our Solar Technique. Researchers from around the United States had submitted a lot more than 20 intriguing tips, this kind of as whizzing by asteroids, diving into lava tubes on the Moon, and hovering in the Venusian atmosphere.
Ultimately, NASA picked four of these Discovery-class missions for even further examine. In various months, the space company will decide on two of the 4 missions to absolutely fund, just about every with a cost cap of $450 million and a start late inside of this 10 years. For the losing ideas, there may well be extra chances in potential yearsbut until finally new chances arise, scientists can only strategy, hold out, and hope.
This is much more or significantly less how NASA has accomplished planetary science for many years. Experts arrive up with all method of good suggestions to answer questions about our Photo voltaic Procedure then, NASA announces an chance, a feeding frenzy ensues for all those minimal slots. In the long run, just one or two missions get picked and fly. The complete system generally will take a couple of decades from the preliminary idea to finding facts again to Earth.
This method has succeeded phenomenally. In the final fifty percent century, NASA has explored most of the large bodies in the Solar System, from the Sunlight and Mercury on one particular conclusion to Pluto and the heliopause at the other. No other region or space company has appear near to NASA’s planetary science achievements. And yet, as the abundance of Discovery-class mission proposals tells us, there is so substantially far more we can study about the Solar Procedure.
Now, two rising systems could propel NASA and the rest of the planet into an era of a lot quicker, lower-charge exploration. In its place of paying out a 10 years or extended arranging and developing a mission, then shelling out hundreds of thousands and thousands (to billions!) of dollars bringing it off, perhaps we can fly a mission within a pair of several years for a number of tens of thousands and thousands of bucks. This would guide to far more exploration and also democratize accessibility to the Solar Technique.
In current several years, a new era of firms is developing new rockets for smaller satellites that price around $10 million for a launch. Now, Rocket Lab has declared a lunar method for its tiny Electron rocket. And Virgin Orbit has teamed up with a team of Polish universities to start up to three missions to Mars with its LauncherOne vehicle.
At the identical time, the many components of satellites, from propulsion to batteries to instruments, are getting miniaturized. It truly is not really like a mobile mobile phone, which right now has a lot more computing electrical power than a device that stuffed a place a number of a long time back. But little satellites are next the exact same fundamental pattern line.
Additionally, the likely of little satellites is no for a longer period theoretical. Two years back, a pair of CubeSats built by NASA (and called MarCO-A and MarCO-B) released together with the Perception mission. In room, the smaller satellites deployed their individual photo voltaic arrays, stabilized them selves, pivoted towards the Sunshine, and then journeyed to Mars.
“We are at a time when there are actually exciting prospects for men and women to do missions a great deal much more swiftly,” explained Elizabeth Frank, an Used Planetary Scientist at 1st Mode, a Seattle-based technological know-how firm. “It won’t have to consider a long time. It results in much more possibility. This is a incredibly remarkable time in planetary science.”
NASA had several plans with its MarCO spacecraft, explained Andy Klesh, an engineer at the Jet Propulsion Laboratory who served as complex direct for the mission. CubeSats had never ever flown over and above small-Earth orbit prior to. So all through their six-month transit to Mars, the MarCOs proved compact satellites could thrive in deep area, regulate their attitudes and, on achieving their location, use a large-obtain antenna to stream facts again residence at 8 kilobits for every 2nd.
But the briefcase-sized MarCO satellites had been much more than a mere technological know-how demonstration. With the launch of its Mars Insight lander in 2018, NASA confronted a communications blackout through the vital period when the spacecraft was because of to enter the Martian environment and contact down on the crimson planet.
To shut the communications hole, NASA built the two MarCO 6U CubeSats for $18.5 million and used them to relay data back again from Insight all through the landing approach. Experienced Perception failed to land, the MarCOs would have served as black box knowledge recorders, Klesh informed Ars.
The achievement of the MarCOs transformed the perception of little satellites and planetary science. A several months right after their mission finished, the European Room Agency declared that it would mail two CubeSats on its “Hera” mission to a binary asteroid procedure. European engineers especially cited the achievement of the MarCOs in their choice to send together CubeSats on the asteroid mission.

  • MarCO-B took this picture of Mars from about 17,500 kilometers away just right after NASAs Insight spacecraft landed on Mars on Nov. 26, 2018.
    NASA/JPL-Caltech
  • MarCO-B took this picture of Mars from about 6,000 kilometers absent in the course of its flyby of the Purple Earth on Nov. 26, 2018.
    NASA/JPL-Caltech
  • Engineers examine one of the two MarCO CubeSats in 2016 at JPL.
    NASA/JPL-Caltech
  • Engineer Joel Steinkraus stands with each of the MarCO spacecraft. The one on the left is folded up the way it will be stowed on its rocket the just one on the right has its solar panels thoroughly deployed, alongside with its significant-obtain antenna on top rated.
    NASA/JPL-Caltech
  • An artist’s rendering of the twin MarCO spacecraft on their cruise in deep space.
    NASA/JPL-Caltech
  • An artist’s rendering of the twin MarCO spacecraft flying in excess of Mars with Earth in the length.
    NASA/JPL-Caltech

The notion of interplanetary compact satellite missions also spurred desire in the rising new house business. “That mission received our focus at Virgin Orbit,” reported Will Pomerantz, director of specific assignments at the California-dependent launch company. “We ended up impressed by it, and we questioned what else we could possibly be capable to do.”
Following the MarCO missions, Pomerantz reported, the business started to receive mobile phone calls from research teams about LauncherOne, Virgin’s small rocket that is dropped from a 747 plane ahead of igniting its motor. How many kilograms could LauncherOne put into lunar orbit? Could the corporation increase a very energetic 3rd phase? Suggestions for missions to Venus, the asteroids, and Mars poured in.
Polish experts think they can establish a spacecraft with a mass of 50kg or fewer (each and every of the MarCO spacecraft weighed 13.5kg) that can consider higher-high quality illustrations or photos of Mars and its moon, Phobos. This kind of a spacecraft may possibly also be able to analyze the Martian environment or even come across reservoirs of liquid h2o beneath the surface of Mars. Entry to low-price tag start was a critical enabler of the notion.
Absent this new manner of planetary exploration, Pomerantz mentioned, a nation like Poland may well only be able to take part as one of many secondary associates on a Mars mission. Now it can get full credit rating. “With even a modest mission like this, it could genuinely put Poland on the map,” Pomerantz claimed.

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Hodgson suffers suspected ACL tear – NRL.COM

The Raiders have sustained a devastating blow in the first half of their clash against the Storm with inspirational co-captain Josh Hodgson leaving the field with a suspected ACL injury.

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The Raiders have suffered a devastating blow in the first half of their 20-14 loss to the Storm with inspirational co-captain Josh Hodgson leaving the field with a suspected ACL injury to his right knee.
Hodgson, who had a reconstruction on his left knee in 2017, hobbled from the field in the 28th minute after rushing up in defence to tackle Cameron Smith his knee buckling in the process. 
The game was stopped for several minutes while the Raiders lost Bailey Simonsson to the sin-bin for a professional foul in the same play.
Melbourne scored immediately after Hodgson’s departure to lead 12-6 before half-time.
Raiders hooker Josh Hodgson.©Gregg Porteous/NRL.com
The Raiders hooker was later pictured on the Fox Sports broadcast sucking on the green whistle in Canberra’s dressing room.
He is expected to be sent for scans on Sunday.
Compounding the woes for Canberra they also lost winger Bailey Simonsson to a shoulder injury in the second half.
The Raiders’ depth will be sorely tested in coming weeks as they are also without Sia Soliola (facial fracture) until the finals and Emre Guler (ankle) for at least another six weeks.
Firebrand foward Corey Horsburgh is out with a foot injury and Englishman John Bateman is nursing a long-term shoulder injury.

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Scientists Have Found the Source for Cosmic Carbon, One of the Main Building Blocks of Life – Interesting Engineering

White dwarfs or supernovae? New research provides insight into which type of star death contributed the carbon of our Universe.

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Stars, like our Sun, not only provided a crucial environment for life during their lifetimes, it turns out they also provide the main building blocks of life during their death. Approximately 90% of all stars end their lives as white dwarfs while the rest explode as supernovae.
RELATED: ASTRONOMERS DISCOVER TWIN BABY STARS GROWING AMONGST GAS AND DUST 
As they collapse, these stars spread their ashes into the surrounding space through stellar winds enriched with chemical elements, including carbon, an element crucial to all life in the Milky Way and other galaxies.
For a long time now, scientists have known that every carbon atom in the universe was created by stars, through the fusion of three helium nuclei. What they were unsure of is whether this carbon came from white dwarfs or supernovae.
Now, an international team of astronomers that analyzed white dwarfs in open star clusters in the Milky Way based on astronomical observations concluded in a study conducted in 2018 at the W. M. Keck Observatory in Hawaii that white dwarfs are responsible for carbon.
The researchers achieved this by studying the relationship between the initial masses of stars and their final masses as white dwarfs, a relationship known as the initial-final mass relation.
“From the analysis of the observed Keck spectra, it was possible to measure the masses of the white dwarfs. Using the theory of stellar evolution, we were able to trace back to the progenitor stars and derive their masses at birth,” said co-author of the new study Enrico Ramirez-Ruiz, professor of astronomy and astrophysics at UC Santa Cruz.
What they found was that the masses of the newly discovered white dwarfs in old open clusters were notably larger than expected. “Our study interprets this peculiarity in the initial-final mass relationship as the signature of the synthesis of carbon made by low-mass stars in the Milky Way,” said lead author Paola Marigo at the University of Padua in Italy.
The researchers then further found that stars bigger than 2 solar masses also contributed to the galactic enrichment of carbon, while stars of less than 1.5 solar masses did not.
“Now we know that the carbon came from stars with a birth mass of not less than roughly 1.5 solar masses,” concluded Marigo. The study is published in the journal Nature Astronomy.

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