Monday, January 3, 2011

Asteroid, the small planet

Did u ever watch "Deep Impact" ???Or "Armageddon" ??? I think u ever watched it...So exclaimed,right ???. The movie story about the asteroids that will hit earth...Could u imagine when an asteroid hit Earth ???It will be a  big big big disaster,the "dooms day"...Because of this ,the dinosaurs was extincted.



asteroid belt
Asteroid Belt
Asteroid(planetoid also minor planet) is rock that orbiting the sun. Asteroid placed in the Asteroid belts,where between Mars and Jupiter. There are many asteroid with different size, beginning from 1 km diameter size until 1000km (Ceres,the biggest) . The asteroids amount in our solar are about 1million. Over 8,000 of these have been individually cataloged and named, and have well-determined orbits. Although it is common to depict the asteroid belt as a dense region, asteroids are actually quite well separated, rarely approaching within 1 million km of one another. (A few asteroids have moons of their own: these are certainly the exception to the rule.) All together, the asteroid belt contains about 0.1% of the mass of the Earth. Earth mass is about 5.98 x 10 24 kg. So it is 5.98 x x 10 21 kg
asteroid
Asteroid Ida with ts satelitte(Dactyl)
asteroid ceres
Ceres


In addition to the asteroids in the belt, some asteroids share Jupiter’s orbit. Asteroids in this special group are called Trojan asteroids, and they orbit about 608 ahead or behind Jupiter. Their orbits are stabilized by the combined gravity of Jupiter and the Sun. Over 150 of these are known; the largest is about 300km in size.

Astronomers estimate that the asteroid was created the same time as our solar system. They are byproduct. As theory said that planets formed by the joining of the asteroids. Asteroids on the Asteroid belt is the rest of solar system material when was created. They have stable gravitional in there.

asteroid approching earth
An asteroid approching erth
Finally, some asteroids are ‘‘Earth-crossing’’ and are potential impactors. These asteroids come from three different groups—the Apollo, Aten, and Amor asteroids. Most of these are small, less than 40km across, and so they are difficult to find in the sky. About 500 are known. Most of these will strike the Earth some time over the next 20–30 million years. Near-misses are common, and are often unpredicted. In 1990, an asteroid came closer to the Earth than the Moon. The asteroid was previously undiscovered, and was not noticed until after it had safely passed the
Earth.

Asteroids do not emit visible light, they only reflect it. Astronomers determinethe compositions of asteroids by comparing the spectrum of the light reflected by the asteroid and the spectrum of the Sun. Absorption lines that are present in the asteroid’s spectrum, but not in the solar spectrum, must be due to elements or minerals in the asteroid. Asteroids are classified in three major groups: carbonaceous (C), silicate (S), and metallic (M). Most asteroids are C-type asteroids, with very low albedo and no strong absorption lines. The rest are mainly S type, with an absorption feature due to a silicate mineral, olivine.


The amount of light reflected from an asteroid towards the Earth changes as the asteroid tumbles through space. We can use this information to determine how quickly the asteroids rotate. About 500 asteroids have been studied well enough to determine their rotation periods, which are generally between 3 and 30 hours.
Smaller asteroids have irregular shapes. The shape of small asteroids can be determined from analysis of the amount of radiation received over time (light curve).


Sourcehttp://en.wikipedia.org/wiki/Asteroid
             Schaum's Outlines of Astronomy 




Saturday, January 1, 2011

What's different between Meteoroid , Meteor, and Meteorite?

Confuse about Meteoroid , Meteor ,and Meteorite??? Same with me, at first i confuse about three kind of this word...but know i hadn't confuse again...want to know the different???Let's check it out...

meteor When a small rock or bit of dust is floating in space, it is a meteoroid. As it falls through the atmosphere of the Earth, it produces a bright streak of light, and is called a meteor. When it actually makes it to the surface of a planet or moon, we call the rock a meteorite. The brightest meteors are called fireballs. Sometimes these are as bright as the full moon. Micrometeorites are meteorites that are as small as sand grains. These are so small that the atmosphere slows them without heating them, and they drift to the surface of the planet. Imagine,about 100 tons of micrometeorites accumulate on Earth every day.WOW!!!

Why on the moon there are so many crater???
On the Moon, however, there is no atmosphere. So, the meteors won't burn because there is no atmosphere. At last, the meteor will impact the moon surface and cause crater.

There are three basic types of meteorites: iron, stony, and stony-iron
1.  Iron Meteorites
Iron meteorites are the easiest to recognize. Why???Because this meteorites are overly heavy for their size, because they have a high proportion of iron. These meteorites come from planetesimal-sized chunks of rock
iron comet
Iron meteorite

2.  Stony Meteorites
Stony meteorites resemble ordinary rocks. Consequently, stony meteorites are 

much less likely to be found, even though they are much more common than iron 


meteorites. Did u know that 95% of the meteorites that fall to Earth are stony meteorites???It's true. 



Stony 






meteorites have about the same density as ordinary rock,and hence are more difficult to find. Most of these stony meteorites are found in places like Antarctica, or the Sahara desert, where there are few ordinary rocks on the surface.Most stony meteorites contain rounded particles imbedded in the rest of the rock. These lumps are called chondrules and the entire stony meteorite isthen called a chondrite. Carbonaceous chondrites are a special kind of chondrite that contain high levels of carbon and often contain amino acids, the building blocks of proteins.
stony meteorite
Stony Meteorite






























3.  Stony - iron meteorite






























Stony-iron meteorites, a hybrid in which pieces of metal are embedded in ordinary 







silicate rock, are less than 1% of the total number of meteorites that fall to Earth.
Stony-iron meteorite

The majority of meteorites probably come from the asteroid belt. Asteroids are
large enough to have held the heat of the early solar system for millions of years.
This allowed them to differentiate, so that the iron fell to the center, surrounded by
a thin stony-iron layer, and enveloped in a thick stone ‘‘crust.’’ When two such
objects collide, the fragments consist of lots of stony meteoroids, fewer iron
meteoroids, and a very small number of stony-iron meteoroids. These fragments
spray away from the collision site, and a few of them eventually find their way to
planets. Other sources of meteorites are comets, the Moon, and Mars.

Friday, December 31, 2010

What are comets???

Comets are balls of dirty ice from the outer solar system that follow elliptical orbits with high eccentricities, so that they are near to the Sun for only a small portion of their lives. As a comet comes near to the Sun at perihelion, the outer layers heat up and turn to gas, causing a coma (halo) and a tail to form. Very close
to the Sun, the tail of a comet splits into two pieces, an ion or plasma tail and a dust tail. While both tails point away from the Sun, the dust tail curves ‘‘back’’ along the orbit, while the plasma tail is swept straight away from the Sun by the solar wind.

These tails can be as long as 1 AU, making comets the largest objects in the solar system. However, comet tails are extremely diffuse; comet tails are more perfect vacuums than any we can make on Earth. The entire mass of a comet is less than 1 billionth the mass of the Earth.The nucleus of a comet is a few kilometers across, and contains lots of water ice and carbon dioxide ice. This nucleus is surrounded by the coma—this is the‘‘head’’ of the comet. The coma can be over 1 millionkm across. The coma shines both by reflected sunlight, and by the transitions of excited atoms and molecules in the gas.

Parts of a comet


Comets can be divided into two types—long-period and short-period comets. This distinction is not quite as arbitrary as it sounds, since there are two different reservoirs for comets in the solar system.

1. LONG PERIOD COMET
The long-period comets come from the Oort cloud, a swarm of comets 50,000–100,000 AU from the Sun. These comets
have been in the Oort cloud since the solar system formed, and contain material that has remained the same since before the Sun formed. The Oort cloud is approximately spherical in shape, although there is probably a denser region near the plane of the solar system. An ice ball leaves the Oort cloud to become a comet when a star passes nearby (within 3 light years), and changes the ice ball’s orbit. The passage of a star slows the ice ball, so that it no longer has enough energy to maintain its orbit. These objects fall into long elliptical orbits around the Sun. It is rare for such an event to happen; about 10 stars per million years pass close enough to change the orbits in the Oort cloud. Each star may affect several ice balls, however. There are probably trillions of icy balls in the Oort cloud.



2.SHORT PERIOD COMET
Short-period comets have periods less than 200 years, and originate in the Kuiper belt. The Kuiper belt is located just outside the orbit of Neptune, between about 30 and 50 AU from the Sun. These comets are distributed in a flat ring on the ecliptic. Extrapolating from known Kuiper belt objects indicates that there are probably about 70,000 comets in the Kuiper belt larger than 100km across. Each time a comet passes near the Sun, it sheds some of its mass, which remains in the orbital path. Eventually, the comet disintegrates entirely, unless, of course, it runs into the Sun, a planet, or receives a gravitational ‘‘assist’’ out of the solar
system during one of its orbits.
Kuiper Belt

SUPERNOVA







Supernova is the explosion of a star in the galaxy that emits more energy than nova. Supernovae are extremely luminous and cause a burst of radiation that often briefly outshines an entire galaxy, before fading from view over several weeks or months. In the end of star life,the star will cause supernova. But not all star will have supernova, just star that have more than 8 times mass of sun (=>8Msun). Sun mass is 1.99 x 1030 kg. After supernova,the next step of star evolution is become neutron star(star initial mass<=8Msun) or black hole(star initial mass=>8Msun).


Image of Supernova


Cassiopeia A Supernova


Based on spectral lines in supernovae, we can found several types of supernovae
1.Supernova type I
This type can found on elips galaxy,the old galaxy that have old stars in majority. Supernova I is weaker than supernova type II.Supernova type could divided again as :

a.    Supernova Ia    => there is hydrogen  spectrum line
b.    Supernova Ib/c  => there is no hydrogen or helium spectrum line
2.Supernova type II
When observation, we can found Hidrogen line on this supernova type. Generally,supernova type II happen in young galaxy,like spiral galaxy that contains young stars.

Step of supernova
1.    Swelling
Star swelling because it send his Helium core to the ouside layer. Star will become red giant star as the swelling. It will become brighter (luminosity increase),the color become red, but its temperature will decrease. The mass become heavier than before.

2.    Iron(Fe) core forming
Because the hydrogen as the main energy source from nuclear fussion reaction was run out,iron will be produced on the core.

3.    Explosion
The star’s core temperature increase until 100billion°C. Then this energy will transfered to outside and explode,create shock wave .This explosion will create new elements cause of the material from explosion fused.

Supernovae have implications for life beyond the stars, among them:
Produces Metal
1. At the core of stars, nuclear fusion reaction occurs. In this reaction born elementsheavier than Hydrogen and Helium. When that happens, these elements are thrown outthe stars and enrich the surrounding interstellar cloud with heavy elements.
2. Creating Life in the Universe
Supernova catapult certain elements into space. These elements are then transferred to other parts far from the exploded star. It is assumed that the element or material is thenjoined to form a new star or even a planet in the universe.



Source http://en.wikipedia.org/wiki/Supernova

Thursday, December 30, 2010

Black Hole

What is black hole actually???

Black Hole is a big concentration of mass that make a very large gravity area. Because of it,nothing could escape from it gravitional area. Need speed of light to escape from it. Black hole come from the star evolution's .Actualy the last step of star evolution. Black Hole comes from main sequence stars,but has mass 8 times than the sun.

First,the star will become supernova cause of it explosion (the star).This explosion created as the gravitonal colappse. The star couldn't produce energy from fussion reaction again.The star will become unstable,then the star shrink.After that, the star will explode. Throw out its atmosphere and its materials. The star will become brighter than before. We call this supernova. In the next step of its evolution,if the star mass 25 times than the sun,it will become the black hole,if lower,it will become neutron star.

An illustration of black hole


 HAVE BLACK HOLES BEEN OBSERVED?
Because of its gravity power,nothing could escape,include light can't escape than it. Light just could enter the black hole,but couldn't escape through it So,we couldn't observe the blackhole because it absorb light

HOW COULD WE KNOW THERE IS BLACK HOLE???
In earlier astronomer has predicted that there is a black hole.Albert Enstein is the one from the astronomers.After he found his gravity theory,he predicted it.It still became a controversy a that time. Nowaday,we could prove the black hole through X-ray Telescope.The emission of black hole is X-ray wave.If some place in space that radiate so many X-ray wave,it means there is a black hole in there.

IS THERE ANY BLACK HOLE NEAR THE EARTH???
The answer is no. Why?Because to become a blaca star must have 8times mass of sun. The kind of that star commonly placed near the core of galaxy.And the distance from us is very far. Our solar system placed about 30.000light years from the core.

WHAT IS ON THE CORE OF OUR GALAXY???
A super massive black hole. The astronomer estimated there is a supermassive black hole on the core of our galaxy,in same case for other galaxy.A galaxy could rotate because there is a super massive black hole on the core of galaxy.

SOURCE : http://en.wikipedia.org/wiki/Black_hole

Wednesday, December 29, 2010

What is Astronomy???