Saturday, July 30, 2011
THE 3 IDIOTS
THE 3 IDIOTS
Farhan Qureshi (R. Madhavan), Raju Rastogi (Sharman Joshi), and Rancchoddas Shamaldas Chanchad "Rancho" (Aamir Khan) are three engineering students who share a room in a hostel at the Imperial College of Engineering (ICE). Farhan is studying engineering to pursue his father's wishes over his own wish — to become a wildlife photographer. Raju is studying to raise his family's fortunes while Rancho, driven by his passion for machines and devices, studies for joy of it. However, due to this different approach Rancho incurs the wrath of dean of college, Professor Viru "Virus" Shahastrabuddhe (Boman Irani). Virus labels Rancho and his friends as "idiots" and attempts on a number of occasions to break up Rancho's friendship with Farhan and Raju. In contrast, Virus' favorite student, Chatur "Silencer" Ramalingam, (Omi Vaidya) believes in mindless memorizing over understanding, in order to reach his goals of corporate and social status. Meanwhile, Rancho also falls in love with Virus' medical student daughter Pia (Kareena Kapoor) when he, Raju and Farhan crash her sister's wedding banquet in order to get a free meal, in the process further infuriating Virus.
Things further escalate when the three friends, who are already drunk, break into Virus' house at night to allow Rancho to propose to Pia, and then urinate on a door inside the compound before running away. The next day, Virus threatens to expel Raju unless he squeals on Rancho. Not wanting to betray his friend or let down his family, Raju jumps out of the third floor window and ends up in a coma. Following his recovery, Raju takes an unexpected approach for an interview for a corporate job whilst Farhan decides to pursue his love of photography. The two friends succeed with their tasks and this further enfuriates Virus, causing him to come up with a plan that will jeopardize Raju's job. During this process, Pia overhears this and decides to help Rancho and Farhan by providing them with the keys to her father's office. However, Virus catches them and expels them on the spot. After that Pia angrily confronts him, revealing that his son, Pia's brother, committed suicide when he could not get into ICE, like Virus wanted him to. At the same time Viru's pregnant elder daughter Mona (Mona Singh) goes into labour. A heavy storm cuts all power and traffic, and Pia is in self-imposed exile because of her revealing of her brother's actions. She instructs Rancho to deliver the baby in the college common room via VOIP. After the baby is apparently stillborn, Rancho resuscitates the baby. Virus reconciles with Rancho and his friends, and allows the trio to stay for their final exams.
Their story is framed as intermittent flashbacks from the present day, ten years after Chatur promised to become more successful than Rancho. Having lost contact with Rancho, who disappeared during the graduation party and went into seclusion, Raju and Farhan begin a journey to find him. They are joined by Chatur, now a wealthy and successful businessman, who joins them, brazenly confident that he has surpassed Rancho and also looking to seal a deal with a famous scientist and prospective business associate named Phunsukh Wangdu. When they find Rancho's house in Shimla, they find a completely different Rancho (Jaaved Jaffrey). From him they come to know that their friend was a destitute servant boy "Chhote" who loved learning, while he, the real Rancho, disliked study. The family agreed to let the servant boy study in Rancho's place instead of labouring. In return, the real Rancho would pocket the qualifications and after graduating, the servant boy will cease all contact. The real Rancho reveals that Chhote is now a school-teacher in Ladakh.
Raju and Farhan find Pia and arrive in Rancho’s school. Pia and the fake Rancho rekindle their love, while Chatur mocks Rancho for becoming a school teacher. He asks Rancho to sign on a "Declaration of defeat" document. When Rancho's friends ask for his real name is, he reveals that he is actually Phunsukh Wangdu himself. Chatur finds out about this and is horrified; he accepts his defeat and pleads his case with Phunsukh to establish the business relationship he was after.
UPDATE!!! (SUSPENSE)
NAKAKALOKA YUNG MOVIE NA YUN (SORORITY ROW1)!!! GOSHNESS!!! IT REMINDS ME OF CROCODILE ETC.!!! NAKAKALOKA!!! SAKIT NG LALAMUNAN KO!!! AHAHAHAHA XD =) PARA KAMING EWAN NI ATE...
>>>> AKO: ATE ILIPAT MO
ATE: WAG!!! PANU NATIN MALALAMAN YUNG KILLER
AKO: AAAAHHHHHH
ATE: AAAHHHHH
ahahahahaha =) XD kakatawa kami! ahahahaha =) baka savhin ng kapit-bahay kung anu-ano na nangyayari samen! ahahahah =) tapos naghahanap pa si ate ng ganung klaseng movie ulet!!! kaloka! ahahahaahha =) XD
>>>> AKO: ATE ILIPAT MO
ATE: WAG!!! PANU NATIN MALALAMAN YUNG KILLER
AKO: AAAAHHHHHH
ATE: AAAHHHHH
ahahahahaha =) XD kakatawa kami! ahahahaha =) baka savhin ng kapit-bahay kung anu-ano na nangyayari samen! ahahahah =) tapos naghahanap pa si ate ng ganung klaseng movie ulet!!! kaloka! ahahahaahha =) XD
Friday, July 29, 2011
UPDATE!!! (never.give.up)
I WILL NEVER GIVE UP!!! NEVER!!! NEVER!!! I WILL LOVE YOU FOREVER!!! ( parang kanta - PUWEDE!!! )
UPDATE!!! (sad)
sad na pala... =( It's very very very very very very very very very very complicated.... =( ='(
UPDATE!!! (saya)
HAPPIEST DAY EVER!!! =) KAHIT UMUULAN ENJOY ANG DAY NA 'TOH!!! =) I LOVE THIS DAY =)
Thursday, July 28, 2011
UPDATE!!! (pent)
everytime I see your face
my heart takes off on a high speed chase
I can't wait till tomorrow
this feeling has swallowed me whole
And I know that I lost control
my heart takes off on a high speed chase
I can't wait till tomorrow
this feeling has swallowed me whole
And I know that I lost control
Wednesday, July 27, 2011
UPDATE!!! (sound.trip.kakarelate.natatamaan.ako.ouch)
Never thought that I fall inlove
It started in a simple crush ... =) =) =) <3
It started in a simple crush ... =) =) =) <3
UPDATE!!! (naka,relate,ako,sa,song,na,toh)
Matagal ko nang gustong malaman mo
matagal ko nang itinatago-tago ‘to
nahihiyang magsalita at umuurong aking dila
pwede bang bukas na, ipagpaliban muna natin ‘to
[refrain]
Dahil kumukuha lang ng tyempo
upang sabihin sa iyo
[chorus]
Mahal kita pero ‘di mo lang alam
mahal kita pero ‘di mo lang ramdam
mahal kita kahit ‘di mo na ako tinitignan
mahal kita kahit ‘di mo lang alam, oh oh woh
Matagal ko nang gustong sabihin ‘to
matagal ko nang gustong aminin sa ‘yo
sandali, eto na at sasabihin ko na nga
ngayon na, mamaya o baka pwedeng bukas na
[refrain]
Dahil kumukuha lang ng bwelo
upang sabihin sa iyo..
[chorus]
Mahal kita pero ‘di mo lang alam
mahal kita pero ‘di mo lang ramdam
mahal kita kahit ‘di mo na ako tinitignan
mahal kita kahit ‘di mo lang alam, oh oh woh
[adlib]
[refrain]
Ngunit kumukuha lang ng tyempo
upang sabihin sa iyo …
Mahal kita pero hindi mo lang alam
hindi mo alam kasi hindi mo naman ako tinitignan
ayaw mo naman itanong sa ‘kin kasi baka
nga naman hindi naman ikaw
at hindi ko rin naman sa ‘yo sasabihin kasi
ayoko pa sa ngayon na manligaw (ndi yan kasama!!! ahahahaha XD)
mahal kita pero hindi nga lang halata
hindi halata kasi wala nga naman akong ginagawa
hindi ako kumikibo, hindi ako nagsasalita, wala
pero hindi ako torpe
hindi ko lang talaga masabi sa ‘yo nang harapan
mahal kita pero dehins mo pa rin ramdam
hindi mo ko titignan, hindi rin kita titignan
lagi mo lang akong pakikiramdaman, lagi
rin kitang pakikiramdaman
at araw-araw tayong magdededmahan
hanggang sa tayo ay magkabistuhan
pero ngayong malapit nang matapos ang kanta
ko, nais kong magkaalamanan na
nais kong ako na rin ang magsabi sa ‘yo nang harapan
kasi alam kong do.n din naman ang tuloy niyan
at dalawa din lang naman ang
posibleng sagot dyan: oo o hindi
kaya.t eto na, sasabihin ko na para
matapos na at hindi na
magka-chismisan pa
sasabihin ko na para wala nang
problema at para hindi na rin kayong
lahat nabibitin pa
[chorus]
Mahal kita pero ‘di mo lang alam
Mahal kita pero ‘di mo lang ramdam
Mahal kita kahit ‘di mo na ako tinitignan
[coda]
mahal kita kahit lagi mo akong dinededma
matagal ko nang itinatago-tago ‘to
nahihiyang magsalita at umuurong aking dila
pwede bang bukas na, ipagpaliban muna natin ‘to
[refrain]
Dahil kumukuha lang ng tyempo
upang sabihin sa iyo
[chorus]
Mahal kita pero ‘di mo lang alam
mahal kita pero ‘di mo lang ramdam
mahal kita kahit ‘di mo na ako tinitignan
mahal kita kahit ‘di mo lang alam, oh oh woh
Matagal ko nang gustong sabihin ‘to
matagal ko nang gustong aminin sa ‘yo
sandali, eto na at sasabihin ko na nga
ngayon na, mamaya o baka pwedeng bukas na
[refrain]
Dahil kumukuha lang ng bwelo
upang sabihin sa iyo..
[chorus]
Mahal kita pero ‘di mo lang alam
mahal kita pero ‘di mo lang ramdam
mahal kita kahit ‘di mo na ako tinitignan
mahal kita kahit ‘di mo lang alam, oh oh woh
[adlib]
[refrain]
Ngunit kumukuha lang ng tyempo
upang sabihin sa iyo …
Mahal kita pero hindi mo lang alam
hindi mo alam kasi hindi mo naman ako tinitignan
ayaw mo naman itanong sa ‘kin kasi baka
nga naman hindi naman ikaw
at hindi ko rin naman sa ‘yo sasabihin kasi
ayoko pa sa ngayon na manligaw (ndi yan kasama!!! ahahahaha XD)
mahal kita pero hindi nga lang halata
hindi halata kasi wala nga naman akong ginagawa
hindi ako kumikibo, hindi ako nagsasalita, wala
pero hindi ako torpe
hindi ko lang talaga masabi sa ‘yo nang harapan
mahal kita pero dehins mo pa rin ramdam
hindi mo ko titignan, hindi rin kita titignan
lagi mo lang akong pakikiramdaman, lagi
rin kitang pakikiramdaman
at araw-araw tayong magdededmahan
hanggang sa tayo ay magkabistuhan
pero ngayong malapit nang matapos ang kanta
ko, nais kong magkaalamanan na
nais kong ako na rin ang magsabi sa ‘yo nang harapan
kasi alam kong do.n din naman ang tuloy niyan
at dalawa din lang naman ang
posibleng sagot dyan: oo o hindi
kaya.t eto na, sasabihin ko na para
matapos na at hindi na
magka-chismisan pa
sasabihin ko na para wala nang
problema at para hindi na rin kayong
lahat nabibitin pa
[chorus]
Mahal kita pero ‘di mo lang alam
Mahal kita pero ‘di mo lang ramdam
Mahal kita kahit ‘di mo na ako tinitignan
[coda]
mahal kita kahit lagi mo akong dinededma
Monday, July 25, 2011
ASSIGNMENT # 7
HISTORY OF COMPUTERS
The first computers were people! That is, electronic computers (and the earlier mechanical computers) were given this name because they performed the work that had previously been assigned to people. "Computer" was originally a job title: it was used to describe those human beings (predominantly women) whose job it was to perform the repetitive calculations required to compute such things as navigational tables, tide charts, and planetary positions for astronomical almanacs. Imagine you had a job where hour after hour, day after day, you were to do nothing but compute multiplications. Boredom would quickly set in, leading to carelessness, leading to mistakes. And even on your best days you wouldn't be producing answers very fast. Therefore, inventors have been searching for hundreds of years for a way to mechanize (that is, find a mechanism that can perform) this task.
MANUAL COMPUTING DEVICES
ABACUS (around 500 B.C.) - Considered as the earliest device for calculation, the abacus is used by Europeans, Chinese and Japanese for simple addition, subtraction, multiplication and division. It is made up of a wooden frame divided into two parts by a beam. On its upper part is a deck of two rows of beads. A series of vertical rods allow the beads to slide.
NAPIER'S BONE (1617) - Names after its inventor, Scottish Mathematician John Napier, this tool is made up of multiplication tables inscribed in a wood or bone.
SLIDE RULE (1620) - Invented by William Oughtred, this is a single straight two-foot long ruler plotted with a logarithmic scale. Multiplication and division are done by using a pair of dividers.
MANUAL MECHANICAL CALCULATORS
PASCALINE OR PASCAL'S ADDING MACHINE (1642) - The machine was the first operational calculating machine that could add large numbers. It was invented by Blaise Pascal, a French mathematician.
STEP RECKONER (1670) - Gottfried von Leibnitz, a German baron, improved the Pascaline into a device that could add, subtract, multiply, divide and get square roots.
DIFFERENCE ENGINE (1822) - Charles Babbage was a British mathematician and inventor who built a machine that automatically calculated mathematical tables, such as logarithmic and trigonometric tables. He called this machine a "computer".
ANALYTICAL ENGINE (1830) - This was also invented by Charles Babbage. Compared to the difference engine, the analytical engine was not only able to perform calculations but also to store data in the memory and perform logical comparison.
ELECTROMECHANICAL COMPUTER
HOLLERITH'S TABULATING MACHINE (1890) - Invented by the American inventor Herman Hollerith, this machine was capable of representing, reading and assembling data.
ELECTRONIC COMPUTERS
MARK 1 - Invented by DR. Howard Aiken, it is the first operating machine that could perform long computations automatically. It could execute addition and subtraction in a second, multiplication in six seconds, division in 15.3 seconds and logarithm and trigonometric functions in over one minute.
ENIAC OR ELECTRONIC NUMERICAL INTEGRATOR AND COMPUTER (1946) - Developed by John Mauchly and J Presper Eckert, it was the first general purpose electronic computer which was made up of vacuum tubes. It was used to process one problem at a time.
UNIVAC 1 OR UNIVERSAL AUTOMATIC COMPUTER (1951) - It is the first commercially available computer that could perform about 1,905 operations per second running on a 2.25 Megahertz clock. The complete system occupied more than 35.5 m2 of the floor space.
GENERATIONS OF COMPUTERS
Fourth-generation computers - These computers are much smaller, faster and more powerful than the earlier models. The use of microprocessors make them more multi-functional. Consist of million of transistors, they can do millions of calculations per second.
Third-generation computers - Called minicomputers, these computers were compact, reliable, and less expensive. Instead of transistors, they use integrated circuits (ICs) or chips which are much smaller compared to transistors.
Second-generation computers - Unlike the first-generation computers, which used vacuum tubes, these computers used transistors which are smaller, more efficient, and less-energy consuming.
First-generation computers - These computers were bulky, took up large spaces, and needed to be kept in cool environment. They used wired circuits that had thousands of vacuum tubes, each of which was about the size of a light bulb.
Types of Computers
2. The Microcomputer – These are the most frequently used computers better known by the name of “Personal computers”. This is the type of computer meant for public use. Other than Desktop Computer the choice ranges as follows:
The first computers were people! That is, electronic computers (and the earlier mechanical computers) were given this name because they performed the work that had previously been assigned to people. "Computer" was originally a job title: it was used to describe those human beings (predominantly women) whose job it was to perform the repetitive calculations required to compute such things as navigational tables, tide charts, and planetary positions for astronomical almanacs. Imagine you had a job where hour after hour, day after day, you were to do nothing but compute multiplications. Boredom would quickly set in, leading to carelessness, leading to mistakes. And even on your best days you wouldn't be producing answers very fast. Therefore, inventors have been searching for hundreds of years for a way to mechanize (that is, find a mechanism that can perform) this task.
MANUAL COMPUTING DEVICES
ABACUS (around 500 B.C.) - Considered as the earliest device for calculation, the abacus is used by Europeans, Chinese and Japanese for simple addition, subtraction, multiplication and division. It is made up of a wooden frame divided into two parts by a beam. On its upper part is a deck of two rows of beads. A series of vertical rods allow the beads to slide.
NAPIER'S BONE (1617) - Names after its inventor, Scottish Mathematician John Napier, this tool is made up of multiplication tables inscribed in a wood or bone.
SLIDE RULE (1620) - Invented by William Oughtred, this is a single straight two-foot long ruler plotted with a logarithmic scale. Multiplication and division are done by using a pair of dividers.
MANUAL MECHANICAL CALCULATORS
PASCALINE OR PASCAL'S ADDING MACHINE (1642) - The machine was the first operational calculating machine that could add large numbers. It was invented by Blaise Pascal, a French mathematician.
STEP RECKONER (1670) - Gottfried von Leibnitz, a German baron, improved the Pascaline into a device that could add, subtract, multiply, divide and get square roots.
DIFFERENCE ENGINE (1822) - Charles Babbage was a British mathematician and inventor who built a machine that automatically calculated mathematical tables, such as logarithmic and trigonometric tables. He called this machine a "computer".
ANALYTICAL ENGINE (1830) - This was also invented by Charles Babbage. Compared to the difference engine, the analytical engine was not only able to perform calculations but also to store data in the memory and perform logical comparison.
ELECTROMECHANICAL COMPUTER
HOLLERITH'S TABULATING MACHINE (1890) - Invented by the American inventor Herman Hollerith, this machine was capable of representing, reading and assembling data.
ELECTRONIC COMPUTERS
MARK 1 - Invented by DR. Howard Aiken, it is the first operating machine that could perform long computations automatically. It could execute addition and subtraction in a second, multiplication in six seconds, division in 15.3 seconds and logarithm and trigonometric functions in over one minute.
ENIAC OR ELECTRONIC NUMERICAL INTEGRATOR AND COMPUTER (1946) - Developed by John Mauchly and J Presper Eckert, it was the first general purpose electronic computer which was made up of vacuum tubes. It was used to process one problem at a time.
UNIVAC 1 OR UNIVERSAL AUTOMATIC COMPUTER (1951) - It is the first commercially available computer that could perform about 1,905 operations per second running on a 2.25 Megahertz clock. The complete system occupied more than 35.5 m2 of the floor space.
GENERATIONS OF COMPUTERS
Fourth-generation computers - These computers are much smaller, faster and more powerful than the earlier models. The use of microprocessors make them more multi-functional. Consist of million of transistors, they can do millions of calculations per second.
Third-generation computers - Called minicomputers, these computers were compact, reliable, and less expensive. Instead of transistors, they use integrated circuits (ICs) or chips which are much smaller compared to transistors.
Second-generation computers - Unlike the first-generation computers, which used vacuum tubes, these computers used transistors which are smaller, more efficient, and less-energy consuming.
First-generation computers - These computers were bulky, took up large spaces, and needed to be kept in cool environment. They used wired circuits that had thousands of vacuum tubes, each of which was about the size of a light bulb.
Types of Computers
The types of computers range from the Hybrid to the Analog types. The computers you come across in the daily course of your day range from laptops, palmtops and towers, to desktop computers, to name a few. But the very word “computers” reminds one of the desktop computers used in offices or homes. Different categories of computes have been devised in keeping with our varied needs.
The Types Of Computers: Analog and Hybrid (classification based on operational principle)
- Analog Computers: The analog computer is almost an extinct type of computer these days. It is different from a digital computer in respect that it can perform numerous mathematical operations simultaneously. It is also unique in terms of operation as it utilizes continuous variables for the purpose of mathematical computation. It utilizes mechanical, hydraulic, or electrical energy or operation.
- Hybrid computers: These types of computers are, as the name suggests, a combination of both Analog and Digital computers. The Digital computers which work on the principle of binary digit system of “0” and “1” can give very precise results. But the problem is that they are too slow and incapable of large scale mathematical operation. In the hybrid types of computers the Digital counterparts convert the analog signals to perform Robotics and Process control.
Apart from this, computers are also categorized on the basis of physical structures and the purpose of their use. Based on Capacity, speed and reliability they can be divided into three categories of computers:
1. The Mainframe Computer – These are computers used by large organizations like meteorological surveys and statistical institutes for performing bulk mathematical computations. They are core computers which are used for desktop functions of over one hundred people simultaneously.
1. The Mainframe Computer – These are computers used by large organizations like meteorological surveys and statistical institutes for performing bulk mathematical computations. They are core computers which are used for desktop functions of over one hundred people simultaneously.
- Personal Digital Computer
- Tablet PC
- Towers
- Work Stations
- Laptops
- Hand Held Computer
3. The Mini computer – Mini computers like the mainframe computers are used by business organization. The difference being that it can support the simultaneous working of up to 100 users and is usually maintained in business organizations for the maintenance of accounts and finances.
Yet another category of computer is the Super Computers. It is somewhat similar to mainframe computers and is used in economic forecasts and engineering designs. Today life without computers is inconceivable. Usage of different types of computers has made life both smooth and fast paced.
Yet another category of computer is the Super Computers. It is somewhat similar to mainframe computers and is used in economic forecasts and engineering designs. Today life without computers is inconceivable. Usage of different types of computers has made life both smooth and fast paced.
Source: ICT book
UPDATE!!! (50-50)
50-50
I'm happy and sad. I'm satisfied and not satisfied. I'm good and bad. I'm normal and abnormal. I'm focused on my studies and not focused. I'm friendly and not friendly.
JUST LIKE THAT!!! =( =) AND I DON'T KNOW IF I'LL LOVE OR HATE THIS DAY!!! =( =)
hmmm, I think, I love and hate this day... =( =) IT'S SO COMPLICATED... =( =)
I'm happy and sad. I'm satisfied and not satisfied. I'm good and bad. I'm normal and abnormal. I'm focused on my studies and not focused. I'm friendly and not friendly.
JUST LIKE THAT!!! =( =) AND I DON'T KNOW IF I'LL LOVE OR HATE THIS DAY!!! =( =)
hmmm, I think, I love and hate this day... =( =) IT'S SO COMPLICATED... =( =)
Sunday, July 24, 2011
UPDATE!!!
YEY!!! =) natapos ko na ung prelim!!! =) itatransfer ko na lang sa one whole sheet of pad paper (ahahahah XD binuo talaga eh noh!!! ahahaha XD) tapos baka iedit ko pa ung powerpoint ko... para mas organize, para bukas.... =) happy sunday!!! =) God bless/speed =)
Saturday, July 23, 2011
UPDATE!!!
I'll do the prelim now... ahahahah =) (starting to hate #26) =) ahahahaha =) (DON'T EXPECT TOO MUCH) =) ang feeler ko ngayon!!! ahahaha =) sorry namen!!! =) dinner muna bago gawin ung prelim!!! (para makapag isip ng maayos) ahahahaha =) XD "GRABEH TEH!" ahahaha XD =)
Friday, July 22, 2011
=)
ang saya kagabi... kachat ung mga friends ko =) at mamaya sasagutan ko na ung prelims, pag katapos ko manuod ng monte carlo!!! =) ahahahaha =) LOVE THIS DAY AND YESTERDAY!!! =) ahahahahaha adhik much lang si ako?!?! paulet ulet?!?! unli? unli? ahahahahha =) XD
LOVE IT!!!
We had our cookfest a while ago... our group cooked "creamy chicken pasta" =) MASAYA & ENJOY ( I LOVE THIS DAY )
Thursday, July 21, 2011
Wednesday, July 20, 2011
Monday, July 18, 2011
UPDATE!!!
YEY!!! malapit ng matapos ang lahat ng prelim!!! =) RESEARCH AT ENGLISH NA LANG (COMPUTER DIN, KUNG MAGPAPAPRELIM PA SI SIR, SANA WAG NA!!! ahahahaha XD) sana wag akong bumagsak sa prelim!!! =) good night, sleep tight =)
Thursday, July 7, 2011
ASSIGNMENT # 6
INTELLIGENCE:
SPATIAL - Because I usually understand things when I visualize them or by the help of images.
MUSICAL - Because I enjoy listening to music and if I replay the song over and over, sometimes I'll just be shock that I'd memorize its lyrics.
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