Secret Life of a Solar Flare

I watched The Knowing last night, and despite negative reviews, I actually quite liked it. *SPOILER ALERT*. It ends with the entire planet Earth being incinerated by a gigantic solar flare. What really interested me was that my weekly NASA Science News email that I got today was about solar flares. So instead of writing a big spiel dissecting the workings of the sun, I thought I would instead include this sweet little video. I would recommend watching just before bed time…

Thanks to NASA Science News

Its definitely a lazy blog entry, but it's back to school time and it's sunny... days like these when little asteroids are being burnt to bits in our outer atmosphere...

Breakfast on Planet Tiffany's?

While travelling recently, I made the mistake of wandering into Tiffany's in the airport. I was quite tempted to have breakfast, but resisted the urge. I have always liked diamonds, but those sparkling, glittering magnificent stones, set so perfectly were something else - I am in love. I just hope my boyfriend doesn't mind. I think I now know their secret...

An international research team with scientists from Australia, Germany, Italy, the UK, and the United States have discovered a pulsar with an interesting neighbour. Pulsars are highly magnetized, rotating neutron starts that emit a pulsing beam of radiation. They are formed when the core of a massive star is compressed during a supernova (a huge explosion), which collapses into a neutron star. Most pulsars have no companions whatsoever, but this one appears to have a very special one.

The orbiting neighbour has a mass close to that of Jupiter and appears to be a remnant of a carbon- and oxygen-rich white dwarf star that measures no more than 55,000 kilometers across. It's make-up and mass mean that it may have a very interesting quality.

''It's highly speculative, but if you shine a light on it, I can't see any reason why it wouldn't sparkle like a diamond," says Travis Metcalfe of the National Center for Atmospheric Research in Boulder, Colorado, talking to New Scientist.

This find is very rare considering the nature of pulsars. Also, a planet that dense is also a rare find.

Some interesting facts...

On Earth, diamonds are formed at pressures of 45-60 kbar.  A kilobar is a metric unit used to measure high pressure. This high pressue corresponds to a depth of 125-200 kilometres below the Earth’s surface where the pressure is around fifty thousand times that of atmospheric pressure at the Earth’s surface.

Some diamonds form at depths of 300-400 kilometres, or even deeper, but these diamonds are particularly rare.

Diamonds are formed at temperatures between 900°C and 1,300°C.

So it makes sense that an old star (very hot) that has collapsed and compressed (very high pressure) that was composed mostly of carbon may indeed ressemble a very, very large diamond.

Guess I know where to have brunch... just hope I don't suffer from space-sickness!