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Wednesday, October 30, 2013

Halloween Special: Spirits in Space

It's a spooky halloween! Pictured above is an eerie nebula (SH2-136) that is
located about 1,200 light years away from us.
Photo credit: Adam Block, NOAO, AURA, NSF

If you have watched the recent sci-fi space movie, ‘Gravity’ (starring George Clooney and Sandra Bullock), you would have realised the extremely risky nature of space expeditions. When things go seriously wrong up there, death is almost inevitable.

For the Celtic people who lived 2000 years ago, Halloween falls on the eve of their new year, which happens on 1 November. On Halloween (31 October), it is believed that the boundary between this world and the next becomes unclear. This is when the ghosts of the dead start to return to earth.  As we prepare to dress up in our spookiest costumes this Halloween night, let us take the time to remember the heroes who have sacrificed their lives up in space...

Before Neil Armstrong became the first human to conquer the moon, there had been hundreds of animals that were sacrificed in the name of space exploration. Animals such as monkeys, chimpanzees, dogs, mice and other animals were used as test subjects in space to analyse the effects of space environment such as microgravity and radiation exposure on human during spaceflight.
Laika, the space dog, was the first animal in space. Unfortunately,
she never return as a re-entry plan had not been worked out.
Photo credit: NASA
Unfortunately, the earlier designs for spacecraft construction were still in the experimental phase. As a result, many animals that were sent for spaceflights died from starvation or dehydration during flight and in explosions while on board the shuttle. In some cases, the spacecraft in which the animals flew in were never recovered. This has led to speculations of abandoned ships that might be drifting in orbit together with their animal astronauts.
It is not just animal deaths that happened during space travels. In 1971, three Soviet crew members of the Soyuz 11 spacecraft, Georgi Dobrovolski, Viktor Patsayev and Vladislav had died in space as a result of space decompression during preparations for re-entry. Technically speaking, these are the only human fatalities that occurred in space (100km above sea level) so far.

The unfortunate crew members (from left to right: Georgi Dobrovolski, Viktor Patsayev and Vladislav Volko)
of Soyuz 11 were the first men to occupy the world's first space station.
Photo credit: Joachim Becker/ SpaceFacts

Thanks to the sacrifices of these animals, astronomers are now able to better understand the requirements of bringing a living being into space and also what lies in the universe out there. So the next time you wish upon a shooting star or wonder what that mysterious looking object in the night sky may be, remember that there is more than meets the eye...


Tuesday, October 1, 2013

Happy Belated Mid Autumn Festival!

Scobbers were so busy that we forgot that Mid Autumn Festival has past! Other than filling ourselves with mooncakes and playing with sparklers, we found out some amazing facts about the Moon that you might not know.

1. The Moon was created in a huge impact event by a Mars-like object

Artist's Impression of Giant Impact event (Source: Wikipedia)

Termed as "Giant Impact Hypothesis", most scientists think that the Moon was formed after a great collision between the Earth and a Mars-sized object 4.5 billion years ago. It explains why the Earth and the Moon spin in similar ways. Scientists also did some calculations to show that if the post-impact Earth revolves in a 2-hour period, i.e. a day is 2 hours instead of 24 hours, we can explain some of the observations.

After the direct impact, the cores of the Mars-sized object and the young Earth fused. The collision made the post-impact Earth spin so fast that a significant portion of the Earth's mass was ejected to form the Moon. By the conservation of angular momentum (a quantity to describe an object's rotation), the Earth-Moon system has similar spin directions.

Also, if the Moon was created from the Earth's material we can explain the fact that the Earth and the Moon have similar chemical compositions. For example the isotopes of oxygen and titanium were found to have identical ratios in both lunar and terrestrial rocks.

The Mars-like object is commonly known as Theia. In Greek myth, Theia is a titan who gave birth to Selene the Moon, Helios the Sun and Eos the Dawn. That's why we use Selen- (or lunar) and Helio- to describe stuff related to the Moon and the Sun respectively.

2. We are always looking at the same side of the Moon

Near side of the Moon (Source: Wikipedia)
Far side of the Moon (Source: Wikipedia)
Readers may have known this fact a long time ago. The "dark" side of the Moon has also been depicted in movie as well. Of course, there are neither giant robots nor military bases located at the far side of the Moon, as shown in the NASA Astronomy Picture of the Day on 16 September 2013. (Direct YouTube link)

There is nothing hidden behind the Moon as shown in photos taken by lunar probes. There are only craters at the far side of the Moon (the side that is not facing us). On the other hand, the near side of the Moon (the side that is facing us) has more interesting features. Apart from the craters there are valleys, mountains and maria (meaning Sea in Latin). Maria appear dark as they mainly contain iron compounds that are less reflective. People in ancient times made up stories for the observed patterns, such as the Moon rabbit legend in Chinese culture. Do you see it in the following picture?

Did you see the Moon Rabbit? (Source: Wikipedia)
Regarding why the Moon always faces with the same side, we need to know how gravity works. Every massive object in the universe attracts each other with a force called gravity. For instance, an apple drops to the ground due to the Earth's gravity (the apple also attracts the Earth, but the effect is very negligible due to the Earth's much larger mass). The strength of the gravity depends on the distance between two objects, so in this case the near side is more attracted than the far side is, making the Moon face towards the Earth with only one side. This effect is called "Tidal Locking".

3. One day, we will lose the Moon

The Moon exerts a gravitational force on the Earth (and vice versa), pulling the water nearer to itself and causing high tide on the Earth. As the Earth rotates underneath the water (we can imagine Earth being a solid rocky ball covered by water), it tugs the tides and loses some of the rotational energy. As a result, the Moon picks up some of the energy and then speeds up, ascending from its orbit. On average, the distance between the Earth and the Moon increases by around 4 cm every year.

It has an interesting side effect: as the Earth loses rotational energy it will rotate slower and slower. The length of a day will increase as a result, amounting to 2 millisecond per century. Wish to have 48 hours per day? Perhaps if you're still around after 4 billion years!

Reference:
  1. Wikipedia. Moon. Retrieved 20 September 2013, from http://en.wikipedia.org/wiki/Moon
  2. Geology 5835 - The Moon - Fall 2006. University of Colorado Boulder. Retrieved 20 September 2013, from http://lasp.colorado.edu/life/GEOL5835/Moon_presentation_19Sept.pdf
  3. A New Model for the Origin of the Moon. Harvard University. Retrieved 24 September 2013, from http://www.fas.harvard.edu/~planets/sstewart/Moon.html
  4. M. Ćuk, S.T. Stewart (2012). Making the Moon from a Fast-Spinning Earth: A Giant Impact Followed by Resonant Despinning. Science Vol. 338 no. 6110 pp. 1047-1052.