StarDate

A future super-giant “onion” perches close to the Moon at dawn tomorrow. It’s the star Antares, the bright heart of the scorpion – one of the most impressive stars in the galaxy.

Antares is a supergiant. It’s roughly a dozen times as massive as the Sun, and hundreds of times wider. Because it’s so heavy, gravity squeezes its core tightly. That revs up the nuclear fusion in the core.

Like all stars, those reactions initially fused hydrogen to make helium. In the Sun, hydrogen fusion will last about 10 billion years. In Antares, though, it lasted a little more than 10 million years.

When the hydrogen in the core was gone, the core shrank, making it hotter – hot enough for the helium to fuse to make carbon and oxygen. That process will last about one million years. Then the carbon will fuse to make heavier elements, and so on. Each step takes less time than the one before. In the final step, silicon will fuse to make iron – a step that takes just a few days.

The lighter elements won’t all go away, though. Instead, the “ash” from each step will form layers around the core – like an onion. But that structure won’t last. The core can’t get hot enough to fuse the iron. Gravity will win out, and the core will collapse – forming an ultra-dense neutron star.

Everything outside the core will blast outward at a few percent of the speed of light. Supergiant Antares will explode as a supernova – an impressive end for an impressive star.

Script by Damond Benningfield

Canopus would be a terrible neighbor. The star is big, bright, and hot, so it might blow away any planet-making materials around nearby stars. Even worse, it may be destined to explode. That would zap any existing planets with radiation – perhaps endangering any life in nearby star systems.

Canopus is the second-brightest star in the night sky. At this time of year, it’s visible from the southern third of the United States in early evening. It’s low in the south, well below Sirius, the brightest star.

Canopus is at least eight times the mass of the Sun. So even though it’s billions of years younger than the Sun, it’s already completed the main phase of life. Within a few million years, its core will collapse, perhaps forming an ultra-dense neutron star. If so, then its outer layers will blast into space as a supernova.

Such an outburst would produce enormous amounts of X-rays and gamma rays – the most powerful forms of energy. That could strip away the ozone layer of any planet within a few dozen light-years, subjecting the surface to high levels of radiation.

So far, we know of only one planet within that range where conditions are most suitable for life. The planet itself isn’t likely to host life. But any big moons might be more comfortable homes – at least until the demise of Canopus.

Luckily for us, Canopus is 300 light-years away. So Earth is well outside the “danger zone” of this not-so-neighborly neighbor.

Script by Damond Benningfield

The tale of Jason and the Argonauts is one of the biggest and boldest stories in Greek mythology. And it involves some of the greatest heroes, many of whom are depicted in the stars – from the twins of Gemini to mighty Hercules. The boat itself was placed in the stars as well. But even it was too big. Astronomers eventually split it apart.

The original constellation was Argo Navis. It was first drawn almost 3,000 years ago. It was far larger than any of the other ancient western constellations.

And for a long time, that was just fine. But as astronomers began studying the stars with telescopes, the Argo was just too big – there were too many stars and other objects within its borders to catalog.

In 1756, French astronomer Nicolas Louis de Lacaille decided to do something about it. He split the Argo apart. He kept the references to the boat, though. So his new constellations were Carina, the keel; Vela, the sail; and Puppis, the poop deck – the deck at the back of the boat. And those constellations are still in use today.

Carina is best known for its brightest star, Canopus. It’s the second-brightest star in the night sky. And from the southern latitudes of the United States, it crawls low across the south in early evening at this time of year. As night falls, it’s just above the horizon, almost directly below Sirius, the brightest nighttime star. We’ll have more about Canopus tomorrow.

Script by Damond Benningfield

The first ship in a solar-system armada reached its target 40 years ago today. Over the following week, four others joined it.

Their target was Comet Halley. It was making its first passage through the inner solar system since 1910. So it was the first chance to study the comet from close range. And space agencies around the world responded. The Soviet Union and Japan each sent two spacecraft, and Europe added one more.

The first to arrive was Vega 1, one of the Soviet missions. It and a companion, Vega 2, had first flown past Venus. They scanned the planet and dropped probes into its atmosphere. Both of them flew just a few thousand miles from Halley’s nucleus – its “body” of rock and ice.

Europe’s contribution, Giotto, came even closer – just 370 miles. It snapped by far the best pictures of any comet. It found that most of the nucleus was covered by a “crust” that was darker than charcoal. But “jets” of ice and dust erupted from thin spots in the crust. They wrapped the nucleus in a cloud of debris. Sunlight and the solar wind pushed some of that material away from the comet, forming a tail that was millions of miles long.

The United States was a notable no-show. A dedicated mission to Halley was scuttled. NASA did turn some craft that were already in space to face Halley, but they were millions of miles away. The next chance to study the comet up close won’t come until 2061.

Script by Damond Benningfield

Visitors sometimes just drop in on us. But a visitor to a home in Georgia took the notion of “dropping in” a bit far. It smashed through the roof, an air duct, and a thick layer of insulation before splatting into the floor, leaving a crater the size of a quarter. It missed smacking into a resident by just 14 feet.

The “visitor” was a meteorite – part of a much larger space rock. The rock formed a glowing streak as it raced through the skies of the southeastern United States on June 26th. Hundreds of people saw it, and many more heard it – it produced a sonic boom, plus an explosion before it hit the ground.

The bit that smashed into the house was one of more than 200 samples recovered. In all, they totaled about 12 pounds. Collectively, they were called the McDonough meteorite for the small town where they hit.

Eyewitness reports, videos, weather radar, and weather satellites helped scientists reconstruct the space rock’s origin. It came from the asteroid belt – a wide band of debris between the orbits of Mars and Jupiter. It probably was a piece from a much larger body that broke apart 470 million years ago.

Lab studies revealed the meteorite’s age: 4.56 billion years – about 20 million years older than Earth. That means it was similar to the rocky building blocks that came together to make Earth. So the McDonough meteorite is an ancient visitor that dropped in with a bang.

Script by Damond Benningfield