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The Detectives of SKSB
Heiji-Yusuf Shinichi-Murshid Kid-fathy Saguru-Putera
Tuesday, July 12, 2011
Tuesday, April 26, 2011
Happy Teachers Day
I Say To All My Teachers.........
- You are the best Teacher in this world. Wherever I may go in my life, I will always remember that I had an excellent guide in the form of a teacher, you.
- I found guidance, friendship, discipline and love, everything, in one person. And that person is you (name of your teacher)
- Without you, we would have been lost. Thank you teacher for guiding us, inspiring us and making us what we are today.
- We will always be thankful to you for all the hard work and efforts you have put in, for educating us.
- You are not only our teacher. Rather, you are friend, philosopher and guide, all molded into one person. We will always be grateful to you for your support.
- I may not say it always. But, I mean it whenever I say it. Thank You Teacher for all the things you have done for us.
- You have been the mentor of life. Though I did not realize it earlier. Now it feels great to have someone who guided me to the right track in life. Happy Teacher’s Day!
- Thanks for being my teacher and guiding me towards the right path of life. I am grateful to you teacher!
- With a great teacher like you, I was sure that life would be a successful journey but I never knew you will also make the journey to success such a cakewalk. I can’t express my gratitude Sir!
- You have been more than a teacher- a mentor, guide, and philosopher! Thanks for blessings me.
- Success is your blessing, teacher. I would always be thankful to you.
- Best of me, reminds me of you. Happy Teachers’ Day!
- Life is a journey and your words have been a guiding light throughout. Happy Teachers’ Day!
- Teacher you have always shown us the right way. Whatever little we have achieved in your life is because of you only. Thanks for being our guide and mentor. Happy Teachers’ Day!
Tuesday, April 19, 2011
Shinichi Kudo
A 17-year-old famous high-school detective in Teitan High School. Superb in soccer, a freak in Physics, and speculation maniac. Really bad in music and ...hates it as well! Ran's to-be boyfriend, but just Dr Agasa and Heiji who knows about it (Sonoko just assumes that "...") He lives all by himself in a BIG house (exact address: Block 2 No. 21, Beika City) since his parents left him for Los Angeles. Don't worry, he's not yet an orphan (wait for another 30 years or so to see it happens). He always claims that he is a detective everytime he's asked what's his name. Watch his quote, "Shinichi Kudou, detective!"
Conan Edogawa
The shrunk form of Shinichi after forced to drink APTX 4869 (the mysterious poison). OF COURSE he has the same ability as Shinichi (they have the same mind BUT different appearance). A student of Teitan Elementary School, he forms a detective group of four (later five with Ai Haibara) called Detective Boys, and they have solved some cases together, Well, actually, it's Conan who does it all.
Yuusaku Kudo
A famous mystery novel writer, and also a top international author. He has a tendency to be proud of his own ability, but Shinichi owns the ability to solve all his cases. Like father like son, Yuusaku really shows his quality as Shinichi's dad in his knowledge about crime-making and crime-solving, but his quote differs from his son's: "I'm not a detective, I'm only a writer". He's really famous because of his novel "Baron Night".
Yukiko Kudo
Shinichi's mum. She WAS a top artist when she married Yuusaku, but still can fooled Conan. She's a housewife, and now stays in Los Angeles. Yukiko is very proud of her fame in Japan, and she still thinks that she should dress up as someone else to avoid crowds in Japan. Thirty-eight years old... and still pretty...
Heiji Hattori
The only son of Heizo Hattori, Chief of Osaka Police Department. He has the same ability as Shinichi to make hypothesis, and also the West version of Shinichi (he is a famous high-school detective, too). He challenges Shinichi to solve a case, and (of course without any doubt) Shinichi wins.
Later realizes that Conan=Shinichi, when Conan use Heiji's body and voice to make the hypothesis (note the funny Kansai accent that Conan speaks). He suddenly wakes up, but just keep quiet to let Conan solves the case and get a proof that Conan=Shinichi. Note his mistake by calling Conan with "Shinichi", Ran always get suspicious but Heiji always can work out a way to trick Ran. A perfect detectives' duo with Conan.
PS: Another thing, his name means "second".
Later realizes that Conan=Shinichi, when Conan use Heiji's body and voice to make the hypothesis (note the funny Kansai accent that Conan speaks). He suddenly wakes up, but just keep quiet to let Conan solves the case and get a proof that Conan=Shinichi. Note his mistake by calling Conan with "Shinichi", Ran always get suspicious but Heiji always can work out a way to trick Ran. A perfect detectives' duo with Conan.
PS: Another thing, his name means "second".
Kaitou Kid
Full name: Kaito Kuroba. Nickname? Kaitou Kid, Kid the Thief, Mysterious Thief Kid, Mysterious Thief #1412, Rupan Heisei, Shadow Sorcerer, KID_, 1412 (man, this guy has so many nicks... *-__-) He is a great magician, superb in undercovering and an "artist in stealing things" (the way he says "thief"). He is perfect in doing people's mimic, their voice, size, behaviour etc etc...
In this story, he appears as a bad guy (but he is good enough for a thief anyway) and tries to steal Black Star from Suzuki's party. However, Conan obviously gets it back from him and gave it to Sonoko's mum. He successfully fools Conan on their first meeting. Second appearance in Vol 20, Conan knows him from his anagram name "Katsuki Doito". If I may say so, he's the only bad guy Conan can't catch.
One more thing, he hates fish!
In this story, he appears as a bad guy (but he is good enough for a thief anyway) and tries to steal Black Star from Suzuki's party. However, Conan obviously gets it back from him and gave it to Sonoko's mum. He successfully fools Conan on their first meeting. Second appearance in Vol 20, Conan knows him from his anagram name "Katsuki Doito". If I may say so, he's the only bad guy Conan can't catch.
One more thing, he hates fish!
Kazuha Taoyama
Heiji's (girl)friend. Well, she is roughly like Ran (isn't she the West version of Ran?) First she gets jealous with "Shinichi Kudou", and yell to Ran, whom she once thought as "Shinichi Kudou". Somehow, she tells Ran about her relationship with Heiji linked with... "Iron Chain"? (A piece of old handcuff, later saves Conan's life).
Sonoko Suzuki
The second daughter of Suzuki family. Conan has used her body and her voice several times to solve some cases. Ran's best friend. She has a sister named Ayako Suzuki. Still looking for boyfriend (in case you'd like to be her boyfriend...)
Hiroshi Agasa
Shinichi's next-door neighbour, Conan's trustee and an inventor (Shinichi: "And how about your useless and stupid inventions?"). He invents the voice-changer bowtie, powered shoes, glasses with radar and everything, earring-shaped mobile, lunchboxed fax,... and a lot more. Still not useful??? I wonder how he says so...
Jyuuzou Megure
The head of Metropolitan Police Department. He first relied on Shinichi, but since Shinichi is not found, he turns to Kogorou, whom he once thought a idiot and careless detective.
Ran Mouri
Shinichi's friend since their childhood (I'm not satisfied with the term 'friend'). She brought Conan into her house, protects him under her wings, and looks after Conan and Kogorou. When she is not around they'll starve... well, most guys can't cook well. With her self-defence ability, she can do karate self -defence on herself.
Kogoro Mouri
Ran's dad, he is a private detective (ex-police). Like father like daughter, he is a great Judo-ka player. He is a clumsy and stupid detective but becomes a very famous detective (in fact, Conan solves all his cases).
Since Shinichi shrink into a kid, he uses Kogorou's body to solve cases because he is an ABSOLUTE DUMB for a detective. At last, Kogorou takes all the credits, he becomes a famous detective, and everything goes under Conan's plan.
Since Shinichi shrink into a kid, he uses Kogorou's body to solve cases because he is an ABSOLUTE DUMB for a detective. At last, Kogorou takes all the credits, he becomes a famous detective, and everything goes under Conan's plan.
Eri Kisaki
Kogoro's wife, they live apart since Ran was 10 years old. Eri is a lawyer and she has everything good in a woman. She mastered self-defence (Judo) as well as her family do. First appearance in Vol 11
She is pretty, clever, but I don't know somehow she loves Kogorou and can't get divorced instead of live apart. I'd like to get divorced if I were her...
She is pretty, clever, but I don't know somehow she loves Kogorou and can't get divorced instead of live apart. I'd like to get divorced if I were her...
Detective Boys
Ayumi Yoshida, Genta Kojima and Mitsuhiko Tsuburaya. Conan's classmates in Teitan Elementary School and form a detective group of four... five, with Ai Haibara.
There's a... ummm... pentagonal love(?) between them. Genta and Mitsuhiko likes Ayumi, Ayumi likes Conan, and Conan loves Ran. I think Ai likes Conan, too, but I'm not pretty sure about it.
There's a... ummm... pentagonal love(?) between them. Genta and Mitsuhiko likes Ayumi, Ayumi likes Conan, and Conan loves Ran. I think Ai likes Conan, too, but I'm not pretty sure about it.
Ai Haibara
Real name: Shiho Miyano. Codename: Sherry. The inventor of APTX 4869. Confused? She was a member of Underground Crime Ring (an organisation where those "MIB" work there). Her sister, Akemi Miyano's death turns her away. She is about to be killed when she remembers about the effects APTX 4869. Then she felt that it'd be better if she commited suicide, so she drinks it and gets away from her handcuffs. She doesn't feel embarassed about being a kid again because she knows that Shinichi Kudou experiences the same thing. Ai is an introvert in every way she is, she's mysterious.
Wednesday, April 13, 2011
System Unit
The system unit is the actual computer; everything else is called a peripheral device. Your computer's system unit probably has at least one floppy disk drive, and one CD or DVD drive, into which you can insert floppy disks and CDs. There's another disk drive, called the hard disk inside the system unit, as shown in Figure 2. You can't remove that disk, or even see it. But it's there. And everything that's currently "in your computer" is actually stored on that hard disk. (We know this because there is no place else inside the computer where you can store information!).
Random Access Memory (RAM)
There's too much "stuff" on your computer's hard disk to use it all at the same time. During the average session sitting at the computer, you'll probably use only a small amount of all that's available. The stuff you're working with at any given moment is stored in random access memory (often abbreviated RAM, and often called simply "memory"). The advantage using RAM to store whatever you're working on at the moment is that RAM is very fast. Much faster than any disk. For you, "fast" translates to less time waiting and more time being productive.
So if RAM is so fast, why not put everything in it? Why have a hard disk at all? The answer to that lies in the fact that RAM is volatile. As soon as the computer is shut off, whether intentionally or by an accidental power outage, every thing in RAM disappears, just as quickly as a light bulb goes out when the plug is pulled. So you don't want to rely on RAM to hold everything. A disk, on the other hand, holds its information whether the power is on or off.
So if RAM is so fast, why not put everything in it? Why have a hard disk at all? The answer to that lies in the fact that RAM is volatile. As soon as the computer is shut off, whether intentionally or by an accidental power outage, every thing in RAM disappears, just as quickly as a light bulb goes out when the plug is pulled. So you don't want to rely on RAM to hold everything. A disk, on the other hand, holds its information whether the power is on or off.
Hard disk
All of the information that's "in your computer", so to speak, is stored on your computer's hard disk. You never see that actual hard disk because it's sealed inside a special housing and needs to stay that way. Unlike RAM, which is volatile, the hard disk can hold information forever -- with or without electricity. Most modern hard disks have tens of billions of bytes of storage space on them. Which, in English, means that you can create, save, and download files for months or years without using up all the storage space it provides.
In the unlikely event that you do manage to fill up your hard disk, Windows will start showing a little message on the screen that reads "You are running low on disk space" well in advance of any problems. In fact, if that message appears, it won't until you're down to about 800 MB of free space. And 800 MB of empty space is equal to about 600 blank floppy disks. That's still plenty of room!
Mouse
Obviously you know how to use your mouse, since you must have used it to get here. But let's take a look at the facts and buzzwords anyway. Your mouse probably has at least two buttons on it. The button on the left is called the primary mouse button, the button on the right is called the secondary mouse button or just the right mouse button. I'll just refer to them as the left and right mouse buttons.The idea is to rest your hand comfortably on the mouse, with your index finger touching (but not pressing on) the left mouse button. Then, as you move the mouse, the mouse pointer (the little arrow on the screen) moves in the same direction. When moving the mouse, try to keep the buttons aimed toward the monitor -- don't "twist" the mouse as that just makes it all the harder to control the position of the mouse pointer.
If you find yourself reaching too far to get the mouse pointer where you want it to be on the screen, just pick up the mouse, move it to where it's comfortable to hold it, and place it back down on the mousepad or desk. The buzzwords that describe how you use the mouse are as follows:
- Point: To point to an item means to move the mouse pointer so that it's touching the item.
- Click: Point to the item, then tap (press and release) the left mouse button.
- Double-click: Point to the item, and tap the left mouse button twice in rapid succession - click-click as fast as you can.
- Right-click: Point to the item, then tap the mouse button on the right.
- Drag: Point to an item, then hold down the left mouse button as you move the mouse. To drop the item, release the left mouse button.
- Right-drag: Point to an item, then hold down the right mouse button as you move the mouse. To drop the item, release the right mouse button.
Keyboard
Like the mouse, the keyboard is a means of interacting with your computer. You really only need to use the keyboard when you're typing text. Most of the keys on the keyboard are laid out like the keys on a typewriter. But there are some special keys like (Escape),(Control), and Alt (Alternate). There are also some keys across the top of the keyboard labeled F1, F2, F3, and so forth. Those are called the function keys, and the exact role they play depends on which program you happen to be using at the moment.
Most keyboards also have a numeric keypad with the keys laid out like the keys on a typical adding machine. If you're accustomed to using an adding machine, you might want to use the numeric keypad, rather than the numbers across the top of the keyboard, to type numbers. It doesn't really matter which keys you use. The numeric keypad is just there as a convenience to people who are accustomed to adding machines.
monitor
The computer monitor is an output device that is part of your computer's display system. A cable connects the monitor to a video adapter (video card) that is installed in an expansion slot on your computer’s motherboard. This system converts signals into text and pictures and displays them on a TV-like screen (the monitor).
The computer sends a signal to the video adapter, telling it what character, image or graphic to display. The video adapter converts that signal to a set of instructions that tell the display device (monitor) how to draw the image on the screen.
The computer sends a signal to the video adapter, telling it what character, image or graphic to display. The video adapter converts that signal to a set of instructions that tell the display device (monitor) how to draw the image on the screen.
Tuesday, April 12, 2011
about komputer
This is about computer
CPU : Central Proceesing Unit
That is:-
The central processing unit (CPU) is the portion of a computer system that carries out the instructions of a computer program, and is the primary element carrying out the computer's functions. The central processing unit carries out each instruction of the program in sequence, to perform the basic arithmetical, logical, and input/output operations of the system. This term has been in use in the computer industry at least since the early 1960s.[1] The form, design and implementation of CPUs have changed dramatically since the earliest examples, but their fundamental operation remains much the same.
Early CPUs were custom-designed as a part of a larger, sometimes one-of-a-kind, computer. However, this costly method of designing custom CPUs for a particular application has largely given way to the development of mass-produced processors that are made for one or many purposes. This standardization trend generally began in the era of discrete transistor mainframes and minicomputers and has rapidly accelerated with the popularization of the integrated circuit (IC). The IC has allowed increasingly complex CPUs to be designed and manufactured to tolerances on the order of nanometers. Both the miniaturization and standardization of CPUs have increased the presence of these digital devices in modern life far beyond the limited application of dedicated computing machines. Modern microprocessors appear in everything from automobiles to cell phones and children's toys.
CPU : Central Proceesing Unit
That is:-
The central processing unit (CPU) is the portion of a computer system that carries out the instructions of a computer program, and is the primary element carrying out the computer's functions. The central processing unit carries out each instruction of the program in sequence, to perform the basic arithmetical, logical, and input/output operations of the system. This term has been in use in the computer industry at least since the early 1960s.[1] The form, design and implementation of CPUs have changed dramatically since the earliest examples, but their fundamental operation remains much the same.
Early CPUs were custom-designed as a part of a larger, sometimes one-of-a-kind, computer. However, this costly method of designing custom CPUs for a particular application has largely given way to the development of mass-produced processors that are made for one or many purposes. This standardization trend generally began in the era of discrete transistor mainframes and minicomputers and has rapidly accelerated with the popularization of the integrated circuit (IC). The IC has allowed increasingly complex CPUs to be designed and manufactured to tolerances on the order of nanometers. Both the miniaturization and standardization of CPUs have increased the presence of these digital devices in modern life far beyond the limited application of dedicated computing machines. Modern microprocessors appear in everything from automobiles to cell phones and children's toys.
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