Sabtu, 20 Desember 2008

KEMAL FADLI

yang lain, maap kalo pas baca nggak ngerti. emang bukan untuk kalian. hahahahha!!

suatu jum'at sebelum khotbah, ada bapak-bapak yang lagi sholat tahiyatul masjid

kemal : (ngelirik kebelakang) ih, sotoy banget. sholat jum'at aja pake kacamata item!

fadli : (ngelirik kebelakang, trus ke depan lagi) hha. sok mo gaya-gayaan. tapi, daripada yang nganterin anak lomba pake kacamata item

kemal diem, ga berapa lama...

kemal : sialan lo dli!


suatu hari pas lagi ujian...

fadli : mal, kok lo masuk sih? bukannya lo kemaren mati?!

kemal : kan, gue mati suri

fadli diem, ga berapa lama...

fadli : sialan lo mal!


suatu waktu di suatu tempat, kemal caper

rama : mal, lo caper bgt sih! dli, kemal caper

fadli : mendingan caper daripada lemes

rama diem, ga berapa lama...

rama : sialan lo dli!

kemal : yessss. hahahaha!!







kalo udah kuliah gimana yaa?!

Jumat, 19 Desember 2008

ANAK-ANAK "DINASTY"

hei, buat para anak-anak "hotel dinasty" yang liat. hhe.
cuma mau ngasih selamat aja buat 14 orang yang lolos ke tahap selanjutnya.
maklum, abis pulang dari makassar saya udah jarang bertatapan dengan yang namanya "astronomi", mencium baunya pun hanya sebentar. (muka jijik)

(SMANSA KODOK!!)

buat kak adis:
yaa. lumayan lah kak, walaupun peringkat 13, tapi itulah yang diberikan oleh Allah.. (hhe). berjuang di tahap 2, siapa tau.. keberuntungan menyertai anda

buat acit:
gilaaaa! acit! jago bgt lo! peringkat 7, menggila!!
lumayan tuh. nilai-nilai lo juga keren-keren. (tapi kok asbol ada yang 15??)
gapapa sih. berhubung lo masih kelas xi, kesempatan lo lebih banyak buat yang kayak ginian dibandingin sama yang lain.


buat kak daus & kak muhril:
yah, udah bagus kok kak. keberuntungan di tempat lain kayaknya masih banyak..
berjuang buat un! =)


yang terakhir, karena saya gatau perkembangan kalian gimanaa..

buat marshiella:
kemana lo? kok ga ikut?



woii.. sms gue pada dibales dooong!! hhe..

Jumat, 05 Desember 2008

BLACK HOLE

A black hole is a theoretical region of space in which the gravitational field is so powerful that nothing, not even electromagnetic radiation (e.g. visible light), can escape its pull after having fallen past its event horizon (kalo indonesianya=horizon peristiwa). The term derives from the fact that the absorption of visible light renders the hole's interior invisible, and indistinguishable from the black space around it.

Despite its interior being invisible, a black hole may reveal its presence through an interaction with matter that lies in orbit outside its event horizon. For example, a black hole may be perceived by tracking the movement of a group of stars that orbit its center. Alternatively, one may observe gas (from a nearby star, for instance) that has been drawn into the black hole. The gas spirals inward, heating up to very high temperatures and emitting large amounts of radiation that can be detected from earthbound and earth-orbiting telescopes. Such observations have resulted in the general scientific consensus that—barring a breakdown in our understanding of nature—black holes do exist in our universe.

The idea of an object with gravity strong enough to prevent light from escaping was proposed in 1783 by John Michell an amateur British astronomer. In 1795, Pierre-Simon Laplace, a French physicist independently came to the same conclusion. Black holes, as currently understood, are described by the general theory of relativity. This theory predicts that when a large enough amount of mass is present in a sufficiently small region of place, all paths through space are warped inwards towards the center of the volume, preventing all matter and radiation within it from escaping.

While general relativity describes a black hole as a region of empty space with a point-like singularity at the center and an event horizon at the outer edge, the description changes when the effects of quantum mechanics are taken into account. Research on this subject indicates that, rather than holding captured matter forever, black holes may slowly leak a form of thermal energy called Hawking radiation and may well have a finite life. However, the final, correct description of black holes, requiring a theory of quantum gravity, is unknown.


(Ada yang dari wikipedia)